78 results on '"V. Morgunov"'
Search Results
2. Settling parameters determined during thickening and washing of red muds
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E. R. Fedorova, E. A. Pupysheva, and V. V. Morgunov
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Materials Chemistry ,Metals and Alloys ,Ceramics and Composites ,Physical and Theoretical Chemistry ,Condensed Matter Physics ,Surfaces, Coatings and Films - Published
- 2023
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3. To the Issue of Low-Alloyed Copper Alloys for Contact Wires
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Irina A. Gruzdeva, Sergey V. Brusnitsyn, and Vadim V. Morgunov
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Radiation ,Materials science ,chemistry ,Electrical resistivity and conductivity ,Metallurgy ,Copper alloy ,chemistry.chemical_element ,General Materials Science ,Condensed Matter Physics ,Copper - Abstract
This paper is about a comparative analysis of the requirements of the Russian standard, the standard of the European Union and the PRC for overhead contact wires for electrified high-speed railways. New generation contact wires must have a high level of mechanical, electrical and operational properties. The Russian standard does not regulate the chemical composition of alloys used for the contact wires manufacture. Unlike the standards of the European Union and China, the Russian standard regulates the maximum value of the relative creep. Compositions, mechanical properties, electrical resistivity and recrystallization temperature for the contact wires with a cross section of 120 mm2 are given. The requirements for the material for the contact wire are presented. The need to use more durable conductive materials instead of copper is noted since mechanical loads and operating temperatures are constantly increasing. The values of mechanical properties, recrystallization temperature and creep of contact wires made of copper alloys are given. Based on the analysis results of the literature data and the experiments, alloys of the Cu-Mg system are recommended as a material for the contact wire manufacture for an overhead network system for high-speed railways.
- Published
- 2021
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4. Technology of the Contact Wire Manufacture for High-Speed Railways
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Vadim V. Morgunov, Andrey V. Sulitsin, and Raisa K. Mysik
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Continuous casting ,Radiation ,Materials science ,Mold ,medicine ,Mechanical engineering ,General Materials Science ,Condensed Matter Physics ,medicine.disease_cause ,Contact wire - Abstract
The article presents an overview of possible technological schemes to produce an overhead contact wire for railways. Pilot experiments were carried out on the manufacture of a contact wire made of CuMg0.3, CuMg0.4 and CuMg0.5 alloys and having a nominal cross section of 100 mm2. The contact wire was obtained from a continuously cast rod with small section, which was subjected to plastic deformation using the Conform technology and cold drawing of the extruded rod. In the casting process, we encountered the formation of cracks on the cast rod surface and the rods breakage. The inner surface of the graphite bushings of the mold after casting the rod was studied and a thin gray layer was found on the inner surface of the graphite bushings. Areas of the graphite bushing with gray layer were studied by scanning electron microscopy and element-by-element mapping was performed with the selection of a spectrum in the sediment layer area. In order to determine the phase composition of the sediment layer it was analyzed by the method of full-profile analysis of the X-ray diffraction pattern according to Rietveld. X-ray phase analysis showed the CuMg2 and Cu2Mg phases presence. This allowed us to assume a possible mechanism for the formation of the sediment layer. Ultimate tensile strength, elongation and electrical resistivity was determined. Analysis showed that the overhead wires made of CuMg0.3, CuMg0.4, CuMg0.5 alloys meets the requirements of GOST R 55647-2018 for wires made of the second conditional group bronze.
- Published
- 2021
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5. To the Question of the Manufacturing Ability a Contact Wire by Continuous Casting Rod
- Author
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Vadim V. Morgunov, Raisa K. Mysik, and Andrey V. Sulitsin
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010302 applied physics ,Materials science ,Metallurgy ,02 engineering and technology ,engineering.material ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Continuous casting ,0103 physical sciences ,engineering ,General Materials Science ,Bronze ,0210 nano-technology ,Contact wire - Abstract
The article presents the results of pilot-industrial experiments in the field of manufacturing technology of contact wire made of Cu-Sn alloys. Cast rods with a diameter of 20 mm, made of CuSn0.04, CuSn0.1, CuSn0.2, CuSn0.3, CuSn0.4 alloys, were obtained in a continuous casting plant on an Upcast system. Cast rods were deformed using a Conform technology, and extruded billets with a diameter of 18 and 20 mm were produced, which were subsequently drawn on a shaped contact wire with a cross section of 100 mm2. Cast rods macrostructure and microstructure were studied. The macrostructure quantitative assessment of samples was studied in a cross and longitudinal section. A plot of the effect of the tin content in the alloy on the average grain area in cross section is obtained. An increase in the tin content in the alloy leads to a decrease in the average grain area. An analysis of the rod microstructure in a cross section showed that the structure is a grain of an α-solid solution of tin in copper, and the grain boundaries are thin and clean. After deformation by Conform technology a uniform fine-grained structure is ensured. The effect of the tin content in the alloy on the Brinell hardness of cast billets, made by Conform technology, is determined. An increase in the tin content in the alloy leads to an increase in the hardness of both cast and deformed billets. The microstructure analysis of the contact wire in the cross section is carried out. The mechanical and electrical properties of the contact wire with a cross section of 100 mm2 are determined. An analysis of the results showed when the tin content in the alloy is up to 0.4 wt. %, the required level of mechanical and electrical properties of the contact wire is not provided. It may be necessary to change the size of the initial billet before drawing or to increase the tin content in the alloy more than 0.4 wt. %.
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- 2021
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6. Analysis and forecast of world oil pricing
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Cemi Ras, Dmitry А. Alexandrov, Evgeniy V. Morgunov, Roman G. Baranchikov, Vladimir S. Chernyavskiy, and Isesp Fctas Ras
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- 2020
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7. Problem of a genre of the novel of E.N. Chirikova «Animal from a chasm»
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R V Morgunov
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Чириков ,композиция ,«Зверь из бездны» ,апокалипсис ,литература о гражданской войне ,«Поэма страшных лет» ,сomposition ,Literature (General) ,PN1-6790 - Abstract
In article it is told about complexity of genre definition of the novel of E.N. Chirikova «Animal from a chasm». The subtitle of this product written by Chirikov «A poem of terrible years» allows to look at art problems and ideas of product differently.
- Published
- 2010
8. Formation of Knowledge Economy in Russia in the Process of Globalization
- Author
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E V Morgunov and N V Illarionov
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Economic growth, development, planning ,HD72-88 ,Economics as a science ,HB71-74 - Abstract
In the article the essence of knowledge economy and globalization is opened, its interrelation is shown and directions of transition of the Russian economy to knowledge economy in conditions of globalization are offered.
- Published
- 2008
9. FORECASTING THE HEAT COMFORT OF PASSENGERS IN THE ELECTRIC TRAIN SHOPS. THEORY AND PRACTICE
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N. I. Mineeva, M. Yu. Vaskina, Leksin Ag, Ekaterina V. Timoshenkova, A. V. Gribov, A. V. Morgunov, V. G. Khlebnikov, and V. N. Demin
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Transport engineering ,03 medical and health sciences ,Electric train ,0302 clinical medicine ,Computer science ,Health, Toxicology and Mutagenesis ,Public Health, Environmental and Occupational Health ,030211 gastroenterology & hepatology ,General Medicine ,030204 cardiovascular system & hematology ,Pollution - Abstract
Introduction. The purpose of the presented work was to determine the cause of complaints of passengers dissatisfied with the thermal comfort in electric trains equipped with modern air conditioning systems. In order, this work to be done both practical and theoretical research was carried out in two stages. This work includes the estimation of microclimate parameters in cars and passengers thermal comfort parameters. Material and methods. At the first stage, direct measurements of microclimate on passenger seats were conducted while the train was in operation. Subsequent analysis of the obtained figures indicates the average values of the studied parameters to correspond to their normative values. At the second stage, Fanger calculation method of determining passenger comfort or discomfort was used to analyze passengers’ assessment of various microclimatic situations in electric trains, both in local areas and in the salons of cars as a whole. Using the Fanger method, based on the results of theoretical calculations, a diagram was constructed. It contains curves showing the warmth index of passengers under different combinations of air temperature and velocity. Results. PMV indices were calculated by using the first stage measurements. Afterward, passengers heating comfort area was drawn on the diagram. It was made for each car and the passengers’ complaints were taken into consideration. Conclusion. The diagram analysis of passengers heating comfort area location relatively to zero point shows the percentage of dissatisfied passengers and it helps to explain the reason it occurs.
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- 2019
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10. Calculation of the Cracking Moment of a Flexible Concrete Element Reinforced with Fiberglass Fitting
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М. V. Morgunov
- Subjects
Moment (mathematics) ,Cracking ,Materials science ,business.industry ,General Arts and Humanities ,Structural engineering ,Element (category theory) ,business - Published
- 2019
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11. Correlation of Evolutionof IT-Environment With Levels of Organizational Development: Reaching Teal-Level Maturity Through Losses Elimination
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O.V. Efimova, A.V. Karlov, E.B. Baboshin, and V. Morgunov
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Organization development ,Business ,Digital economy ,Maturity (finance) ,Industrial organization - Published
- 2021
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12. GEANT4 validation for X-ray treatment of wooden cultural heritage artefacts
- Author
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M. Zachar, P. Hybler, and V. Morgunov
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Cultural heritage ,Engineering ,Architectural engineering ,Radiation ,X-ray treatment ,Electron beam accelerator ,business.industry ,business ,Gamma irradiation - Abstract
The preservation of cultural heritage is very important. Ionizing radiation is widely used for this purpose and use of gamma irradiation has become common practice in cultural heritage preservation. The number of available electron accelerators is two orders of magnitude greater than for gamma facilities, and many countries do not have gamma facilities. In this work we demonstrate the possibility of using an electron accelerator and X-rays generated from accelerated electrons for radiation treatment of wooden cultural heritage. The GEANT4 toolkit was used for the simulation of the passage of particles through matter. The accuracy of radiation treatment numerical simulation in comparison with experiment was in range of 1.5–11.8%.
- Published
- 2020
13. EXPERIMENTAL INVESTIGATIONS OF THE LOSSES OF PRESTRESSING IN FINE REINFORCED CONCRETE ELEMENTS
- Author
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S. G. Parfenov and M. V. Morgunov
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010302 applied physics ,020303 mechanical engineering & transports ,0203 mechanical engineering ,business.industry ,General Arts and Humanities ,0103 physical sciences ,02 engineering and technology ,Structural engineering ,Reinforced concrete ,business ,01 natural sciences ,Geology - Abstract
The article deals with late losses of prestressing of reinforcement due to shrinkage and creep in fine reinforced concrete structures. Creep deformations can several times exceed the elastic straincaused by load. The most common in practice caseof the development of concrete creep is slowly decreased creeping with timewith a rather high initial rate of the development in the first hours after loading. It is typical for stresses that do not exceed the long-term resistance of concrete. Experimental study of deformation of shrinkage and creep of fine-grained concrete allows us to compare the loss of prestressing due to concrete shrinkage and creep. Usually there is an aggregate effect of these factors, which significantly complicates the study of the processes occurring in concrete during long-term exposures. Basically, the results obtained during testing of concrete prisms are used to compare stress-related properties of concrete, but this is not enough to study the loss of prestressing due to concrete shrinkage and creep and testing should be carried out on elements reinforced with prestressed reinforcement to take into account changes in prestresses and redistribution of stresses on the height of the cross section (depth) of the element with a prolonged action of the prestressing force. The results of experimental studies of rectangular reinforced concrete beams at loadcase of different ages of t = 14, 28, 280 and 320 days are analyzed. The losses from rapid creep, shrinkage losses, total losses from shrinkage and creep are considered. The experimental data are presented in the form of graphs and tables. There was performed comparison of the experimental data with the calculated ones determined according to the current standards, and for shrinkage according to the method proposed by I.I. Ulitsky as well.
- Published
- 2018
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14. Numerical modeling of radiation treatment of materials
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V. Morgunov and E. Cherniak
- Subjects
Materials science ,Nuclear engineering ,Numerical modeling ,Radiation - Published
- 2018
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15. HYGIENIC ASSESSMENT OF THE THERMOS CAR FOR TRANSPORTING FOOD PRODUCTS
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L. P. Korotich, A. G. Leksin, T. S. Tikhova, Valery A. Kaptsov, and A. V. Morgunov
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Health, Toxicology and Mutagenesis ,Food products ,Public Health, Environmental and Occupational Health ,General Medicine ,Pollution - Abstract
Recently, due to the increasing volume of traffic and the lack of specialized transport, new engineering solutions are being sought, one of which is the modernization of the existing fleet of thermos cars to extend their service life. The aim of this study was the hygienic assessment of the modernized thermos car model 16-6894 for its compliance with the current Rules for the carriage of perishable goods by rail. Perishable goods include food products requiring compliance with certain temperature and humidity conditions during storage and transportation. To confirm the compliance of the temperature in the thermos car with the requirements of sanitary and hygienic rules and regulations, a corresponding study was conducted. According to a special program, tests were carried out to determine the time of heating the air in a thermos car using a simulator of deep-frozen products (frozen water) in order to further establish the deadlines for transportation in the summer and transitional periods of the year. The result of the research was the development of computer software that allows predicting the timing of transportation of any frozen food for certain specified conditions.
- Published
- 2019
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16. DEVELOPMENT OF CITIES THROUGH THE LENS OF THE POPULATION LIFE QUALITY
- Author
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Evgeniy V. Morgunov and Sirazhutdin M. Mamaev
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education.field_of_study ,Economic growth ,Geography ,Population ,Life quality ,education ,Through-the-lens metering - Published
- 2017
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17. Application of the partially thermally coupled distillation flowsheets for the extractive distillation of ternary azeotropic mixtures
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Andrey V. Timoshenko, Andrey V. Morgunov, Danila G. Rudakov, and Elena A. Anokhina
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Fractional distillation ,Batch distillation ,Chemistry ,General Chemical Engineering ,Thermodynamics ,Continuous distillation ,Quantum Physics ,General Chemistry ,law.invention ,law ,Azeotropic distillation ,Extractive distillation ,Theoretical plate ,Ternary operation ,Distillation - Abstract
An application is considered of the extractive distillation flowsheets with partially thermally coupled columns for the separation of ternary azeotropic mixtures with the different type of vapor–liquid equilibrium diagrams. The feasible extractive distillation flowsheets with such columns are identified for all types of the ternary azeotropic mixture vapor–liquid equilibrium diagrams. The manifold of flowsheets is the search space to identify the optimal arrangement for the separation of the individual mixture. An applicability analysis of all possible extractive distillation flowsheets for all types of vapor–liquid equilibrium diagram decreases the number of feasible configurations for the selection of the optimal extractive distillation sequence for the mixture with unique vapor–liquid equilibrium diagram separation. For example, in the case of benzene–cyclohexane–toluene mixture distillation with N-methylpyrrolidone as an entrainer, only 10 extractive distillation flowsheets instead of 22 potential ones must be analyzed, calculated and optimized for the identification of the best extractive distillation arrangement.
- Published
- 2015
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18. Compositional optimization of chemical copper-doped nickel-phosphorus coatings
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E. G. Vinokurov, A. V. Morgunov, and V. D. Skopintsev
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inorganic chemicals ,Materials science ,General Chemical Engineering ,Metallurgy ,technology, industry, and agriculture ,Metals and Alloys ,chemistry.chemical_element ,Indentation hardness ,Chloride ,Copper ,Corrosion ,Inorganic Chemistry ,Electroless nickel ,Nickel ,chemistry ,Conversion coating ,Materials Chemistry ,medicine ,Porosity ,human activities ,medicine.drug - Abstract
We have studied the physicomechanical properties (adhesion to steel, microhardness, and wear resistance) of chemical nickel-phosphorus coatings doped with a small amount (0.5–2%) of copper. The as-grown coatings have low porosity and stable composition. They are identical in mechanical properties to conventional chemical nickel-phosphorus coatings but exhibit enhanced wear resistance after heat treatment at a temperature of 600°C. Copper doping improves the corrosion resistance of the coatings in acidified chloride solutions.
- Published
- 2015
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19. [MICROCLIMATE CONDITION IN SUBWAY CARS IN THE SUMMER PERIOD OF THE YEAR]
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A G, Leksin, M N, Evlampieva, E V, Timoshenkova, A V, Morgunov, and V A, Kaptsov
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Air Pollutants ,Temperature ,Humans ,Air Conditioning ,Microclimate ,Seasons ,Moscow ,Railroads ,Environmental Monitoring - Abstract
There are presented the results of the work, which aims to identify the relationship between the temperature of air in the salons of subway cars from the heat output of passengers in different people occupancy of cars during "peak hours", and to determine the efficacy offorced air handling regular ventilation or air conditioning system to remove the elevated heat load on passengers. In the work there was used the method of calculating the amount of heat output of 215 passengers (nominal fullness of the chamber) and the simulation method of heat and moisture output of the same number of passengers. The operating system of ventilation has been shown to fail to decline the average temperature of the air in the passenger compartment to the optimum values and most efficient approach for the reducing the heat load on the passengers is the use of air conditioning systems.
- Published
- 2015
20. Energy-saving technologies of autoextractive distillation of an acetone-chloroform-n-butanol-dimethylformamide mixture
- Author
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A. V. Morgunov, L. V. Ivanova, N. M. Prokhorenkova, E. A. Surkova, A. V. Timoshenko, and V. S. Timofeev
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Solvent ,chemistry.chemical_compound ,Chloroform ,chemistry ,law ,n-Butanol ,General Chemical Engineering ,Acetone ,Organic chemistry ,Dimethylformamide ,General Chemistry ,Distillation ,law.invention - Abstract
The autoextractive distillation of an azeotropic solvent mixture of acetone, chloroform, n-butanol, and dimethylformamide is considered. A set of flowsheets belonging to different structural classes is synthesized (flowsheets containing two-withdrawal columns and flowsheets involving complex columns with a single side section). The flowsheet that is optimal in energy consumption is revealed, and it is shown that flowsheets with coupled heat and material flows are more efficient than conventional ones.
- Published
- 2006
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21. A high-granularity plastic scintillator tile hadronic calorimeter with APD readout for a linear collider detector
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Yu. Gilitzky, A. Raspereza, I. Polak, S. Reiche, J. Zalesak, V. Dodonov, H. Meyer, S. Němeček, Mikhail Danilov, M. Groll, Vladimir Andreev, V. Kozlov, Adel Terkulov, R.-D. Heuer, Roman Pöschl, G. Eigen, V. Korbel, M. Janata, I. Kacl, P. A. Smirnov, Vladimir Rusinov, J. Cvach, J. Weichert, F. Sefkow, E. G. Devitsin, Stefan Valkar, V. Morgunov, and Erika Garutti
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Nuclear and High Energy Physics ,Physics::Instrumentation and Detectors ,29.40.Vj ,Scintillator ,Particle detector ,avalanche [photoelectron] ,42.81.Qb ,APD readout ,Nuclear physics ,proposed [linear collider] ,Silicon photomultiplier ,Optics ,Hardonic calorimeter ,ddc:530 ,plastics [scintillation counter] ,Linear collider detector ,Instrumentation ,Physics ,Hadronic calorimeter ,Calorimeter (particle physics) ,business.industry ,Detector ,29.40.Wk ,DESY ,Avalanche photodiode ,sandwich [scintillation counter] ,42.81.Pa ,optical [semiconductor] ,Plastic scintillator title ,07.20.Fw ,Scintillation counter ,colliding beams [electron positron] ,High Energy Physics::Experiment ,hadronic [calorimeter] ,business ,linear collider [electron positron] - Abstract
We report upon the performance of an analog hadron calorimeter prototype, where plastic scintillator tiles are read out with wavelength-shifting fibers coupled to avalanche photodiodes. This prototype configuration has been tested using a positron beam at DESY with energies between 1 and 6 GeV. We present different detector calibration methods, show measurements for noise, linearity, and energy resolution and discuss gain monitoring with an LED system. The results are in good agreement with our simulation studies and previous measurements using silicon photomultiplier readout.
- Published
- 2006
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22. Status report on silicon photomultiplier development and its applications
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L. Filatov, F. Kayumov, V. Korbel, P. Buzhan, Vladimir Rusinov, V. Morgunov, Erika Garutti, E. Novikov, H. Meyer, M. Groll, R. Mizuk, A. Ilyin, S. Klemin, Vadim Kantserov, I. Tikhomirov, E. Tarkovsky, Mikhail Danilov, B. A. Dolgoshein, E. Popova, P. Pakhlov, V. Kaplin, F. Sefkow, A. Karakash, and V. Balagura
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Novel technique ,Physics ,Nuclear and High Energy Physics ,business.industry ,Scintillator ,Wavelength shifter ,Status report ,Hadron calorimeter ,Silicon photomultiplier ,Optics ,State of art ,ddc:530 ,business ,Instrumentation - Abstract
The state of art of the Silicon Photomultipliers (SiPM’s)—their features, possibilities and applications—is given. The significant progress of this novel technique of photo detection is described and discussed. r 2006 Elsevier B.V. All rights reserved.
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- 2006
- Full Text
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23. A high-granularity scintillator calorimeter readout with silicon photomultipliers
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Roman Pöschl, V. Korbel, M. Groll, S. Němeček, S. Klemin, R. D. Heuer, E. G. Devitsin, A. Ilyin, Vladislav Balagura, S. Reiche, V. O. Tikhomirov, V. Kaplin, Serge Smirnov, J. Cvach, G. Eigen, E. Popova, E. Novikov, V. Dodonov, Vadim Kantserov, L. Filatov, E. Tarkovsky, A. Raspereza, Adel Terkulov, Y. Soloviev, P. A. Smirnov, I. Kacl, I. Polak, V. A. Kozlov, A. Karakash, J. Weichert, R. Mizuk, P. Buzhan, F. Sefkow, M. Janata, V. Rusinov, B. Bobchenko, M. Danilov, H. Meyer, Stefan Valkar, V. Morgunov, B. A. Dolgoshein, Erika Garutti, J. Zálešák, and Vladimir Andreev
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Physics ,Nuclear and High Energy Physics ,Photomultiplier ,Scintillation ,International Linear Collider ,Physics::Instrumentation and Detectors ,business.industry ,Detector ,Scintillator ,Semiconductor detector ,Calorimeter ,Nuclear physics ,Silicon photomultiplier ,Optics ,Physics::Accelerator Physics ,High Energy Physics::Experiment ,business ,Instrumentation - Abstract
We report on the design, construction and performance of a prototype for a high-granularity tile hadronic calorimeter for a future international linear collider detector. Scintillating tiles are read out via wavelength-shifting fibers that guide the scintillation light to a novel photodetector, the silicon photomultiplier. A prototype has been tested using a positron test beam at DESY. The results are compared with a reference prototype calorimeter equipped with multichannel vacuum photomultipliers. Detector calibration, noise, linearity and stability are discussed, and the energy response in a 1–6 GeV positron beam is compared with simulations. The present results demonstrate that the silicon photomultiplier is well-suited as photodetectors in calorimeters and thus has been selected for the construction of a 1 m 3 calorimeter prototype to operate in hadron beams.
- Published
- 2005
- Full Text
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24. A measurement of the Z0 leptonic partial widths and the vector and axial vector coupling constants
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Aa Vorobyov, Francesco Marzano, T. Angelov, J.M. Qian, Philip Kaaret, A. Engler, N. Smirnov, W. Krenz, G. Hu, J.M. Thenard, A.M. Cartacci, Carlos Willmott, L. Ludovici, H.R. Dimitrov, L. Urbàn, V. Plyaskin, U. Becker, G. Rahal-Callot, D.N. Mao, C. Souyri, E. Thomas, Sandra Consuegra Rodríguez, H. T. Li, R.J. Wu, F. J. Eppling, D. S. Yan, S.S. Gau, An.A. Vorobyov, T. Matsuda, F. Cesaroni, L. Leistam, S. M. Ting, Federico Carminati, M. Gailloud, M.L. Chen, Yu. Galaktionov, L. Baksay, K. Schultze, V.G. Shevchenko, Boleslaw Wyslouch, H.J. Schreiber, C.Y. Chien, H.F. Chen, Y.P. Tong, P.G. Seiler, J. Alcaraz, S. Patricelli, E. Tarkovsky, A. Heavey, Q. Ye, V. Schegelsky, M. Gettner, D. Lanske, O. Adriani, G.Q. Hu, T. Kramer, J.C. Sens, Peter Denes, M. Sachwitz, C. Maña, Qi An, S. Lökös, R. Raghavan, Marcella Diemoz, Paolo Bagnaia, J. J. Blaising, T. Ferguson, M. G. Alviggi, K.S. Yang, Samuel C.C. Ting, Th. Rombach, J. P. Burq, G. Von Dardel, K. N. Qureshi, Steven Goldfarb, Marco Meschini, D. Kirkby, J. Schütte, G. Landi, F.G. Hartjes, Laurent Vuilleumier, U. Herten, T. Böhringer, X.R. Shi, D.W. Schmitz, B. N. Jin, H. Haan, Simonetta Gentile, E. Isiksal, D.H. Zhang, Igor Vorobiev, Lamberto Luminari, Y. Peng, S. Schulte, C. Pols, P. Marchesini, B. Stöhr, Ming Zeng, P. Vikas, R. Leiste, Robert Clare, X. Lue, M. Röhner, S. C. Yeh, Antonino Zichichi, J.M. Lubbers, F. Bruyant, V. Morgunov, T. Foreman, Kenneth Francis Read, Egidio Longo, U. K. Chaturvedi, H. Rykaczewski, D. Harting, Thomas Hebbeker, Panos A Razis, Y.J. Pei, Y. S. Lu, Paul Lecoq, G. Conforto, J. Fehlmann, I. Vetlitsky, P. Blömeke, R. L. Sumner, W. Ruckstuhl, S. Rosier-Lees, T. Riemann, M. Napolitano, P. Schmitz, B. Bertucci, Alexei Klimentov, K. Deiters, D. Zhang, D. P. Stickland, P. Le Coultre, Yu. Kamyshkov, R.C. Ball, Adrian Biland, G. Schwering, J. Ulbricht, Raffaello D'Alessandro, Dimitri Bourilkov, C. Camps, Nicanor Colino, L. Zehnder, Y.F. Mao, H. Vogt, R. T. Van de Walle, S. X. Wu, A. Gordeev, M. Micke, Lawrence W. Jones, J. Wenninger, Y. Karyotakis, K. Sudhakar, Y. Mir, C. H. Ye, G. Fernandez, G. H. Wang, K. Hangarter, H. S. Chen, Helmut Vogel, Oliver Kornadt, M. Pohl, R. Liu, Mw Gruenewald, R. Starosta, V. Pojidaev, Jérôme Rose, R. Wilhelm, C. Grinnell, Y. Mi, K. Freudenreich, Leonardo Merola, K.D. Shmakov, S. J. Fan, W. Walk, S. Banerjee, Zp Zhang, Ph. Rosselet, G. J. Bobbink, M. M. Ilyas, Pierre Lecomte, Wesley James Metzger, L.S. Hsu, L. Montanet, D. Luckey, Gy L. Bencze, G. Herten, J. P. Martin, B. Spiess, J.Y. Liao, P.V.K.S. Baba, M. Steuer, J. Onvlee, M. Bourquin, C. G. Yang, I. C. Brock, C. Chen, X. D. Cai, G. Forconi, J. Weber, Z.Q. Yang, E. Valente, M. Chemarin, E. Perrin, K. Strauch, Tariq Aziz, W. Friebel, G. Faber, M. Fabre, Corinne Goy, B. Borgia, V. Lalieu, T.J. Wenaus, S. L. Wu, Speranza Falciano, Vincenzo Innocente, R. Fabbretti, T. Azemoon, Patricia McBride, S. Morganti, Jd Burger, M. Capell, Georgi Sultanov, Jozsef Toth, Charles Timmermans, A. Kuhn, R. A. Khan, H. Akbari, G. Sauvage, V. Koutsenko, Z.Z. Xu, Gaihe Yang, J. Lettry, Claudio Luci, Suresh C Tonwar, R. Weill, G.B. Mills, A. Malinin, Mingshui Chen, M. Dhina, A. van Laak, Qun Wang, R. Dolin, Marcos Cerrada, D. Perret-Gallix, H. S. Fesefeldt, Axel König, D. J. Schotanus, J. A. Bakken, Elisabetta Gallo, R.B. Sutton, W. Lohmann, P. Lebrun, V. P. Andreev, X. L. Wang, E. Jagel, Crisostomo Sciacca, Yanwen Liu, P. J. Li, J. Schwenke, X. Y. Cui, Fridolin Dittus, J. Fay, Marco Pieri, Chenliang Wang, M. Fukushima, P. Schmitt, M. Glaubman, K. Mazumbar, G. M. Chen, S. Reucroft, Harvey B Newman, K. Hilgers, D. Güsewell, A. Chen, M. Vollmar, F. Ferroni, I. Clare, W. Wallraff, D. Wright, H. Fenker, D. Antreasyan, J. M. Le Goff, Alberto Aloisio, S. Beingessner, A. Grimes, Y. Zeng, Z.F. Gong, Th. Meinholz, S.Y. Zhang, A. L. Anderson, J. A. Rubio, P. Göttlicher, J.H. Wang, J. Mnich, P. K. Malhotra, D. Ren, Ying Wu, X. W. Tang, J. G. Branson, J. Von Rango, I. Sheer, J. F. Zhou, M. Herbert, K. Lübelsmeyer, Piero Spillantini, P. A. Piroué, G. Viertel, A. Kunin, P. Duinker, M. MacDermott, Z. W. Yin, S. N. Ganguli, H. van der Graaf, C. Rippich, B. L. Betev, A. Degré, Giovanni Paternoster, J. Bao, U. Uwer, D. Kaplan, A. Contin, Alexander Savin, G. Morand, M. Elkacimi, P. Extermann, I. Leedom, H. Hofer, K. L. Tung, R. Morand, Z. L. Xue, Howard A. Stone, D. Pandoulas, J. Salicio, T.S. Dai, Y. H. Chang, George Alverson, T. Spickermann, S. Kwan, Ren-Yuan Zhu, Luciano Barone, Vineet Kumar, M. Guanziroli, R. Magahiz, G.G.G. Massaro, F. Carbonara, F.C. Erné, Q.Y. Yang, L. Martinez, A. Gurtu, F. L. Linde, V. Commichau, A. Böhm, G. Coignet, E. Shumilov, J. Zoll, M. Bocciolini, J. H. Field, M. Schöntag, W. Böhlen, V. Shoutko, Luciano Romero, C. F. He, Giorgio Gratta, A. Pevsner, M. Tonutti, Barry Blumenfeld, L. Antonov, A. Marchionni, V.R. Krastev, E. Gonzalez, B. Ille, S. Lanzano, Bernardo Adeva, R. W. Kraemer, V. Khoze, C-Q. Li, R. Bizzarri, S. Hancke, F. DeNotaristefani, P. Berges, M. Maire, L. Li, D. Boutigny, J.F. Li, H. Suter, Y.F. Wang, U. Micke, D. Linnhofer, R. Mount, W.D. Nowak, J. Berdugo, B. Monteleoni, W. Kittel, G. Chiefari, S. Shevchenko, M. Schneegans, R. Schulte, Zhuoxiang Ren, J. M. You, N. Produit, A. A. Syed, K. Lanius, F. Crijns, Marcel Merk, J. Perrier, C. Zabounidis, D. Goujon, Bz Yang, A. Sopczak, X. Leytens, H. Anderhub, C. Dionisi, Alain Hervé, G. Mirabelli, A. Bay, D. Campana, Carlo Civinini, M. Maolinbay, X.G. Li, M. Aguilar-Benitez, I. Duran, P. F. Klok, Herwig Schopper, M. White, Petr Levchenko, F. Wittgenstein, E. Drago, L. Niessen, Z.Y. Lin, T. Driever, M. Harris, E. Dénes, B. P. Roe, W.G. Ma, E. Nagy, M. Vivargent, Christine Buisson, Z. M. Wang, A. Arefiev, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), L3, IHEF (IoP, FNWI), B., Adeva, O., Adriani, M., Aguilarbenitez, H., Akbari, J., Alcaraz, Aloisio, Alberto, G., Alverson, Alviggi, Mariagrazia, Q., An, H., Anderhub, A. L., Anderson, V. P., Andreev, T., Angelov, L., Antonov, D., Antreasyan, A., Arefiev, T., Azemoon, T., Aziz, P. V., K., P., Bagnaia, J. A., Bakken, L., Baksay, R. C., Ball, S., Banerjee, J., Bao, L., Barone, A., Bay, U., Becker, S., Beingessner, G. L., Bencze, J., Berdugo, P., Berge, B., Bertucci, B. L., Betev, A., Biland, R., Bizzarri, J. J., Blaising, P., Blomeke, B., Blumenfeld, G. J., Bobbink, M., Bocciolini, W., Bohlen, A., Bohm, T., Bohringer, B., Borgia, D., Bourilkov, M., Bourquin, D., Boutigny, J. G., Branson, I. C., Brock, F., Bruyant, C., Buisson, J. D., Burger, J. P., Burq, X. D., Cai, D., Campana, C., Camp, M., Capell, F., Carbonara, F., Carminati, A. M., Cartacci, M., Cerrada, F., Cesaroni, Y. H., Chang, U. K., Chaturvedi, M., Chemarin, A., Chen, C., Chen, G. M., Chen, H. F., Chen, H. S., Chen, M., Chen, M. L., Chen, Chiefari, Giovanni, C. Y., Chien, C., Civinini, I., Clare, R., Clare, G., Coignet, N., Colino, V., Commichau, G., Conforto, A., Contin, F., Crijn, X. Y., Cui, T. S., Dai, R., Dalessandro, A., Degre, K., Deiter, E., Dene, P., Dene, F., Denotaristefani, M., Dhina, M., Diemoz, H. R., Dimitrov, C., Dionisi, F., Dittu, R., Dolin, E., Drago, T., Driever, P., Duinker, I., Duran, M., Elkacimi, A., Engler, F. J., Eppling, F. C., Erne, P., Extermann, R., Fabbretti, G., Faber, S., Falciano, S. J., Fan, M., Fabre, J., Fay, J., Fehlmann, H., Fenker, T., Ferguson, G., Fernandez, F., Ferroni, H., Fesefeldt, J., Field, G., Forconi, T., Foreman, K., Freudenreich, W., Friebel, M., Fukushima, M., Gailloud, Y., Galaktionov, E., Gallo, S. N., Ganguli, S. S., Gau, S., Gentile, M., Gettner, M., Glaubman, S., Goldfarb, Z. F., Gong, E., Gonzalez, A., Gordeev, P., Gottlicher, D., Goujon, C., Goy, G., Gratta, A., Grime, C., Grinnell, M., Gruenewald, M., Guanziroli, A., Gurtu, D., Gusewell, H., Haan, S., Hancke, K., Hangarter, M., Harri, D., Harting, F. G., Hartje, C. F., He, A., Heavey, T., Hebbeker, M., Hebert, G., Herten, U., Herten, A., Herve, K., Hilger, H., Hofer, L. S., Hsu, G., Hu, G. Q., Hu, B., Ille, M. M., Ilya, V., Innocente, E., Isiksal, E., Jagel, B. N., Jin, L. W., Jone, P., Kaaret, R. A., Khan, Y., Kamyshkov, D., Kaplan, Y., Karyotaki, V., Khoze, D., Kirkby, W., Kittel, A., Klimentov, P. F., Klok, A. C., Konig, O., Kornadt, V., Koutsenko, R. W., Kraemer, T., Kramer, V. R., Krastev, W., Krenz, A., Kuhn, V., Kumar, A., Kunin, S., Kwan, A., Vanlaak, V., Lalieu, G., Landi, K., Laniu, D., Lanske, S., Lanzano, P., Lebrun, P., Lecomte, P., Lecoq, P., Lecoultre, I., Leedom, J. M., Legoff, L., Leistam, R., Leiste, J., Lettry, P. M., Levchenko, X., Leyten, C., Li, H. T., Li, J. F., Li, L., Li, P. J., Li, X. G., Li, J. Y., Liao, R., Liu, Y., Liu, Z. Y., Lin, F. L., Linde, D., Linnhofer, W., Lohmann, S., Loko, E., Longo, Y. S., Lu, J. M., Lubber, K., Lubelsmeyer, C., Luci, D., Luckey, L., Ludovici, X., Lue, L., Luminari, W. G., Ma, M., Macdermott, R., Magahiz, M., Maire, P. K., Malhotra, A., Malinin, C., Mana, D. N., Mao, Y. F., Mao, M., Maolinbay, P., Marchesini, A., Marchionni, J. P., Martin, L., Martinez, F., Marzano, G. G., G., T., Matsuda, K., Mazumdar, P., Mcbride, T., Meinholz, M., Merk, Merola, Leonardo, M., Meschini, W. J., Metzger, Y., Mi, M., Micke, U., Micke, G. B., Mill, Y., Mir, G., Mirabelli, J., Mnich, L., Montanet, B., Monteleoni, G., Morand, R., Morand, S., Morganti, V., Morgunov, R., Mount, E., Nagy, Napolitano, Marco, H., Newman, L., Niessen, W. D., Nowak, J., Onvlee, D., Pandoula, Paternoster, Giovanni, Patricelli, Sergio, Y. J., Pei, Y., Peng, D., Perretgallix, J., Perrier, E., Perrin, A., Pevsner, M., Pieri, P. A., Piroue, V., Plyaskin, M., Pohl, V., Pojidaev, C. L., A., N., Produit, J. M., Qian, K. N., Qureshi, R., Raghavan, G., Rahalcallot, J., Vonrango, P., Razi, K., Read, D., Ren, Z., Ren, S., Reucroft, T., Riemann, C., Rippich, S., Rodriguez, B. P., Roe, M., Rohner, T., Rombach, L., Romero, J., Rose, S., Rosierlee, P., Rosselet, J. A., Rubio, W., Ruckstuhl, H., Rykaczewski, M., Sachwitz, J., Salicio, G., Sauvage, A., Savin, V., Schegelsky, P., Schmitt, D., Schmitz, P., Schmitz, M., Schneegan, M., Schontag, H., Schopper, D. J., Schotanu, H. J., Schreiber, R., Schulte, S., Schulte, K., Schultze, J., Schutte, J., Schwenke, G., Schwering, Sciacca, Crisostomo, P. G., Seiler, J. C., Sen, I., Sheer, V., Shevchenko, S., Shevchenko, X. R., Shi, K., Shmakov, V., Shoutko, E., Shumilov, N., Smirnov, A., Sopczak, C., Souyri, T., Spickermann, B., Spie, P., Spillantini, R., Starosta, M., Steuer, D. P., Stickland, B., Stohr, H., Stone, K., Strauch, K., Sudhakar, G., Sultanov, R. L., Sumner, H., Suter, R. B., Sutton, A. A., Syed, X. W., Tang, E., Tarkovsky, J. M., Thenard, E., Thoma, C., Timmerman, S. C., C., S. M., Ting, Y. P., Tong, M., Tonutti, S. C., Tonwar, J., Toth, K. L., Tung, J., Ulbricht, L., Urban, U., Uwer, E., Valente, R. T., Vandewalle, H., Vandergraaf, I., Vetlitsky, G., Viertel, P., Vika, M., Vivargent, H., Vogel, H., Vogt, M., Vollmar, G., Vondardel, I., Vorobiev, A. A., Vorobyov, A., Vorobyov, L., Vuilleumier, W., Walk, W., Wallraff, C. R., Wang, G. H., Wang, J. H., Wang, Q. F., Wang, X. L., Wang, Y. F., Wang, Z. M., Wang, J., Weber, R., Weill, T. J., Wenau, J., Wenninger, M., White, R., Wilhelm, C., Willmott, F., Wittgenstein, D., Wright, R. J., Wu, S. L., Wu, S. X., Wu, Y. G., Wu, B., Wyslouch, Z. Z., Xu, Z. L., Xue, D. S., Yan, B. Z., Yang, C. G., Yang, G., Yang, K. S., Yang, Q. Y., Yang, Z. Q., Yang, Q., Ye, C. H., Ye, S. C., Yeh, Z. W., Yin, J. M., You, C., Zabounidi, L., Zehnder, M., Zeng, Y., Zeng, D., Zhang, D. H., Zhang, S. Y., Zhang, Z. P., Zhang, J. F., Zhou, R. Y., Zhu, A., Zichichi, and J., Zoll
- Subjects
Physics ,Coupling constant ,Nuclear and High Energy Physics ,Particle physics ,010308 nuclear & particles physics ,media_common.quotation_subject ,Electron–positron annihilation ,Detector ,Charge (physics) ,01 natural sciences ,Asymmetry ,0103 physical sciences ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,Atomic physics ,010306 general physics ,Pseudovector ,Particle Physics - Experiment ,media_common ,Lepton - Abstract
We have measured the partial widths of the Z 0 into lepton pairs, and the forward-backward charge asymmetry for the process e + e − → μ + μ − using the L3 detector at LEP. We obtain an average Γ ll of 83.0±2.1±1.1 MeV.From this result and the asymmetry measurement, we extract the values of the vector and axial vector couplings of the Z 0 to leptons: g rmv =−0.066 −0.027 +0.046 and g rmA = −0.495 −0.007 +0.007 .
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- 1990
25. Optimizing solution composition for the chemical deposition of nickel-copper-phosphorus alloys
- Author
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M. B. Gokzhaev, A. V. Morgunov, and V. D. Skopintsev
- Subjects
Solution composition ,Chemistry ,General Chemical Engineering ,Phosphorus ,Doping ,Inorganic chemistry ,Metals and Alloys ,chemistry.chemical_element ,Sodium hypophosphite ,Copper ,Inorganic Chemistry ,chemistry.chemical_compound ,Nickel ,Materials Chemistry ,Deposition (chemistry) ,Stabilizer (chemistry) - Abstract
We have studied the possibility of obtaining nickel-phosphorus coatings doped with copper (0.5–2 wt %) by chemical deposition from weakly acidic solutions containing nickel and copper salts and sodium hypophosphite, as well as malonic, succinic, and aminoacetic acids as complex-forming and buffering components, and a lead salt as the stabilizer at pH 6.3–7.0 and a temperature of 87–97°C. The solution composition has been optimized using the method of mathematical experiment planning so as to provide the deposition at a maximum rate.
- Published
- 2008
- Full Text
- View/download PDF
26. High pressure xenon electronically collimated camera for low energy gamma ray imaging
- Author
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Alexander Bolozdynya, V.V. Egorov, G. Safronov, S.A. Medved, V. Morgunov, A. Koutchenkov, and G. Smirnov
- Subjects
Physics ,Nuclear and High Energy Physics ,Scintillation ,Photomultiplier ,Physics::Instrumentation and Detectors ,business.industry ,Astrophysics::High Energy Astrophysical Phenomena ,chemistry.chemical_element ,Field of view ,Collimator ,Collimated light ,Particle detector ,law.invention ,Optics ,Xenon ,Nuclear Energy and Engineering ,chemistry ,law ,Electrical and Electronic Engineering ,business ,Image resolution - Abstract
A high pressure xenon scintillation drift chamber with the field of view of 30 cm in diameter has been built and tested as two-dimensional gamma-imaging detector in the energy range of
- Published
- 1997
- Full Text
- View/download PDF
27. An electroluminescence emission detector to search for double-beta positron decays of /sup 124/Xe and /sup 78/Kr
- Author
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V.V. Egorov, A. Koutchenkov, G. Smirnov, G. Safronov, V. Morgunov, S. Meddved, and Alexander Bolozdynya
- Subjects
Physics ,Nuclear and High Energy Physics ,Scintillation ,Physics::Instrumentation and Detectors ,Astrophysics::High Energy Astrophysical Phenomena ,Detector ,Electroluminescence ,Nuclear physics ,Positron ,Nuclear Energy and Engineering ,Double beta decay ,High Energy Physics::Experiment ,Beta (velocity) ,Electrical and Electronic Engineering ,Atomic physics - Abstract
An emission detector, self-triggered with scintillation is proposed to search for double-beta positron decays of /sup 124/Xe and /sup 78/Kr.
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- 1997
- Full Text
- View/download PDF
28. A high pressure xenon self-triggered scintillation drift chamber with 3D sensitivity in the range of 20–140 keV deposited energy
- Author
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G. Safronov, G. Smirnov, A. Koutchenkov, V. Morgunov, V. Egorov, S. Medved, and A. Bolozdynya
- Subjects
Physics ,Nuclear and High Energy Physics ,Scintillation ,Photon ,Physics::Instrumentation and Detectors ,business.industry ,Astrophysics::High Energy Astrophysical Phenomena ,Detector ,Compton scattering ,chemistry.chemical_element ,Particle detector ,Xenon ,Optics ,chemistry ,Scintillation counter ,Absorption (electromagnetic radiation) ,business ,Instrumentation - Abstract
A high pressure gas self-triggered scintillation drift chamber has been built with a working volume of 30 cm diameter and 4 cm depth, viewed through glass windows by an array of 19 PMTs. The detector tested at 9 bar xenon filling showed 2.7% FWHM energy resolution at 122 keV over a 22 cm field of view and three-dimensional sensitivity with X , Y resolution of 3.7 mm FWHM and Z resolution of 0.6 mm FWHM for 60 keV photoabsorbed γ-rays. The readout system of the detector is able to select multi-vertex events occurring in the sensitive volume due to γ-ray absorption and discriminate fluorescent photons, Compton scattering and photoabsorption vertices. The energy resolution in “fluorescent photon gated mode” has been measured as 2.2% FWHM at 122 keV γ-ray. Some possible applications of the detector are discussed.
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- 1997
- Full Text
- View/download PDF
29. Validation of GEANT4 Monte Carlo Models with a Highly Granular Scintillator-Steel Hadron Calorimeter
- Author
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C Adloff, J Blaha, J -J Blaising, C Drancourt, A Espargilière, R Gaglione, N Geffroy, Y Karyotakis, J Prast, G Vouters, K Francis, J Repond, J Schlereth, J Smith, L Xia, E Baldolemar, J Li, S T Park, M Sosebee, A P White, J Yu, T Buanes, G Eigen, Y Mikami, N K Watson, G Mavromanolakis, M A Thomson, D R Ward, W Yan, D Benchekroun, A Hoummada, Y Khoulaki, J Apostolakis, A Dotti, G Folger, V Ivantchenko, V Uzhinskiy, M Benyamna, C Cârloganu, F Fehr, P Gay, S Manen, L Royer, G C Blazey, A Dyshkant, J G R Lima, V Zutshi, J -Y Hostachy, L Morin, U Cornett, D David, G Falley, K Gadow, P Göttlicher, C Günter, B Hermberg, S Karstensen, F Krivan, A -I Lucaci-Timoce, S Lu, B Lutz, S Morozov, V Morgunov, M Reinecke, F Sefkow, P Smirnov, M Terwort, A Vargas-Trevino, N Feege, E Garutti, I Marchesini, M Ramilli, P Eckert, T Harion, A Kaplan, H -Ch Schultz-Coulon, W Shen, R Stamen, B Bilki, E Norbeck, Y Onel, G W Wilson, K Kawagoe, P D Dauncey, A -M Magnan, V Bartsch, M Wing, F Salvatore, E Calvo Alamillo, M -C Fouz, J Puerta-Pelayo, B Bobchenko, M Chadeeva, M Danilov, A Epifantsev, O Markin, R Mizuk, E Novikov, V Popov, V Rusinov, E Tarkovsky, N Kirikova, V Kozlov, Y Soloviev, P Buzhan, A Ilyin, V Kantserov, V Kaplin, A Karakash, E Popova, V Tikhomirov, C Kiesling, K Seidel, F Simon, C Soldner, M Szalay, M Tesar, L Weuste, M S Amjad, J Bonis, S Callier, S Conforti di Lorenzo, P Cornebise, Ph Doublet, F Dulucq, J Fleury, T Frisson, N van der Kolk, H Li, G Martin-Chassard, F Richard, Ch de la Taille, R Pöschl, L Raux, J Rouëné, N Seguin-Moreau, M Anduze, V Boudry, J-C Brient, D Jeans, P Mora de Freitas, G Musat, M Reinhard, M Ruan, H Videau, B Bulanek, J Zacek, J Cvach, P Gallus, M Havranek, M Janata, J Kvasnicka, D Lednicky, M Marcisovsky, I Polak, J Popule, L Tomasek, M Tomasek, P Ruzicka, P Sicho, J Smolik, V Vrba, J Zalesak, B Belhorma, H Ghazlane, T Takeshita, S Uozumi, M Götze, O Hartbrich, J Sauer, S Weber, C Zeitnitz, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire Leprince-Ringuet (LLR), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), CALICE, Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), and Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)
- Subjects
Physics - Instrumentation and Detectors ,Physics::Instrumentation and Detectors ,Highly Granular Calorimetry [9.5] ,Hadron ,Monte Carlo method ,FOS: Physical sciences ,Scintillator ,01 natural sciences ,High Energy Physics - Experiment ,High Energy Physics - Experiment (hep-ex) ,Silicon photomultiplier ,Pion ,0103 physical sciences ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,ddc:610 ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Detectors and Experimental Techniques ,010306 general physics ,physics.ins-det ,Instrumentation ,Mathematical Physics ,Advanced infrastructures for detector R&D [9] ,Physics ,Range (particle radiation) ,hep-ex ,010308 nuclear & particles physics ,Instrumentation and Detectors (physics.ins-det) ,Computational physics ,Calorimeter ,High Energy Physics::Experiment ,Granularity ,Particle Physics - Experiment - Abstract
Calorimeters with a high granularity are a fundamental requirement of the Particle Flow paradigm. This paper focuses on the prototype of a hadron calorimeter with analog readout, consisting of thirty-eight scintillator layers alternating with steel absorber planes. The scintillator plates are finely segmented into tiles individually read out via Silicon Photomultipliers. The presented results are based on data collected with pion beams in the energy range from 8GeV to 100GeV. The fine segmentation of the sensitive layers and the high sampling frequency allow for an excellent reconstruction of the spatial development of hadronic showers. A comparison between data and Monte Carlo simulations is presented, concerning both the longitudinal and lateral development of hadronic showers and the global response of the calorimeter. The performance of several GEANT4 physics lists with respect to these observables is evaluated. Calorimeters with a high granularity are a fundamentalrequirement of the Particle Flow paradigm. This paper focuses on theprototype of a hadron calorimeter with analog readout, consisting ofthirty-eight scintillator layers alternating with steel absorberplanes. The scintillator plates are finely segmented into tilesindividually read out via Silicon Photomultipliers. The presentedresults are based on data collected with pion beams in the energyrange from 8 GeV to 100 GeV. The fine segmentation of thesensitive layers and the high sampling frequency allow for anexcellent reconstruction of the spatial development of hadronicshowers. A comparison between data and Monte Carlo simulations ispresented, concerning both the longitudinal and lateral developmentof hadronic showers and the global response of the calorimeter. Theperformance of several GEANT4 physics lists with respect tothese observables is evaluated. Calorimeters with a high granularity are a fundamental requirement of the Particle Flow paradigm. This paper focuses on the prototype of a hadron calorimeter with analog readout, consisting of thirty-eight scintillator layers alternating with steel absorber planes. The scintillator plates are finely segmented into tiles individually read out via Silicon Photomultipliers. The presented results are based on data collected with pion beams in the energy range from 8GeV to 100GeV. The fine segmentation of the sensitive layers and the high sampling frequency allow for an excellent reconstruction of the spatial development of hadronic showers. A comparison between data and Monte Carlo simulations is presented, concerning both the longitudinal and lateral development of hadronic showers and the global response of the calorimeter. The performance of several GEANT4 physics lists with respect to these observables is evaluated.
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- 2013
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30. Abstracts Second Congress of the European Society for Clinical Neuropharmacology
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G. Collingridge, D. Bruns, A. Teufel, P. Barbier, H. G. Bloß, K. P. Offord, C. Stahl-Hennig, E. N. H. Jansen, T. Sobanski, Carlo Ori, M. Goetz, A. Muratorio, Ulderico Freo, E. Sale, Eldad Melamed, J. M. Maloteaux, Z. Bashir, B. Guschelbauer, D. Fitzgeral, R. Korinthenberg, H. Baas, Armin Heils, I. M. Macrae, T. Kutschka, M. C. Anderson, M. Beeg, G. A. Wiesbeck, P. Del Dotto, P. C. O'Brien, J. Knauber, M. E. Götz, Keith F. Tipton, M. Simanyi, G. Rossi, Max Holzer, I. Svobodová, L. Mancino, L. Calza, Th. Müller, J. P. W. F. Lakke, Mauro Dam, A. Raja, Eri Hashimoto, F. Crépel, U. Pulkowski, R. Ceravolo, D. R. Schroeder, M. Streifler, L. L. Iversen, E. Lossmann, K. Lieb, F. Heinen, T. A. Ibrahim, M. Rösier, F. Siebecker, R. Schinzel, P. Emson, A. H. Rajput, C. H. Lücking, F. Ferraguti, D. Feineis, L. Froelich, Wolf-Dieter Heiss, Ewout R. Brunt, Oliver Griesbeck, N. Pavese, A. Gerstner, J. Putzke, U. Nöth, Paolo Maria Rossini, R. God, G.B. Cassano, R. Nafc, D. Müller, A. Cunningham, Daniela Necchi, Patrick Carroll, C. Lucetti, F. Abel, O. M. Adegemo, E. Braak, B. Molzer, N. Fichter, A. Lugowska, M. L. Rao, S. Roßner, F. Coraddu, A. Gemma, O. Tucha, L. J. Bryan-Lluka, I. Avdiunina, H. Beckmann, P. Fruth, H. W. Clement, F. Müller, E. de la Morena, W. Zieglgänsberger, A. P. Jeanjean, C. H. Lammers, A. Seghers, A. Nuti, A. Steup, M. Schwarz, Michael Sendtner, T. W. van Weerden, M. Li, B. Janetzky, R. Erdmann, R. Winkel, B. Niedermeyer, V. ter Meulen, M. Butà, D. Peckys, Th. Arendt, P. A. Löschmann, S. Strauss, D. Offen, B. Gangus, D. M. Yilmazer, K. Velbinger, T. J. Feuerstein, Klaus V. Toyka, R. S. J. Frackowiak, F. Conquet, K. Gasiorowski, F. Fascetti, C. Grote, A. Barzilai, Thomas A. Sontag, C. G. Parsons, G. Dell’Agnello, Hans-Peter Hartung, Toshikazu Saito, R. Stein, W. D. Rausch, E. Donati, P. Vanhoorde, S. Hartmann, E. Orlov, D. Inglot, Francesca Vaglini, W. Paulus, A. Merico, W. H. Jost, H. H. Borchert, M. Bagli, N. S. Alekseeva, T. Heinemann, B. K. Siesjö, T. Hirning, I. Ziv, C. Wurthman, M. J. Lohse, E. Hermsteiner, J. Coos Verhoef, B. Landwehrmeyer, Félix F. Cruz-Sánchez, Hans Lassmann, R. Jackisch, E. W. Fünfgeld, M. Naumann, Gilberto Pizzolato, M. Bigl, Helmut Heinsen, J. E. Ahlskog, M. Sieklucka, Hiroki Ozawa, S. Hesse, J. Pruim, H. E. Junginger, Andreas Moser, J. Boning, F. Fumagalli, M. Berger, M. Lauk, E. Borroni, M. Gerlach, M. Heider, C. Schwarzer, K. Jellinger, W. H. Oertel, S. Danielcyk, V. Tuulik, J. Bauer, F. Block, Udo Rüb, F. Böcker, Hans Thoenen, L. Komelkova, G. Zürcher, A. Hochman, A. Mesec, G. Jungkunz, G. Charles, P. Vieregge, P. Kalus, Jürgen Fritze, I. Faé, K. Eschrich, H. Standhardt, M. Schüler, W. Kolasiewicz, A. Meister, E. N. H. Janzen, M Melzacka, A. A. Sharkawy, Borwin Bandelow, M. Renna, S. Hauck, Marco A. Riva, U. Lockemann, R. M. Nitsch, Heiko Braak, R. Medori, S. Federspiel, J. Berger, D. Senitz, J. Wissel, Georg W. Kreutzberg, U. McMonagle, H. Przuntek, T. Reum, C. Heim, K. V. Morgunov, R. Maggio, J. Leszek, Gavin P. Reynolds, Gerald Münch, M. Klessaschek, B. Zielke, R. Morgenstern, P. A. Fischer, Y. Agid, B. Volk, H. Schuttes, Konstanze Plaschke, J. Krieglstein, Th. Büttner, D. Blum-Degen, Eleni Koutsilieri, N. Wodarz, Reinhard Schliebs, P. König, Klaus W. Lange, T. Motzek-Noé, Robert Jech, J. Niemann, M. Abdel-moneim, V. V. Peresedov, Juergen Deckert, G. Storm, S. Kamolz, W. Breithaupt, B. Weber, Giovanni Corsini, J. C. Schwartz, M. Hüll, C. Bancher, M. Struck, M. Abdel-mohsen, A. Napolitano, D. Labunsky, M. Sohlbach, T. Winter, J. Sautter, H. J. Degen, Y. Glinka, R. Dörries, C. D. Earl, R. Riederer, G. Bringmann, W. Kuhn, J. A. Protzen, M. Winter, T. Klockgether, B. Fiebich, O. S. Brusov, H. Daniel, B. Bethke, T. R. Tolle, A. Weindl, Michael Bauer, N. Takahata, A. Baumer, Isabella Heuser, V. Gieselmann, Gian Franco Placidi, Giulio Perugi, H. Bönisch, A. Eckert, J. Michaelis, F. von Raison, V. Bigl, S. Harder, Graziella Bernocchi, J. Kuijpers, R. Brückner, U. Bonuccelli, M. José Barro, G. Laux, S. Grüter, W. Retz, M. L. Mimmack, A. Kupsch, Austin Smith, I. Zhirnova, A. M. Sardar, A. I. Svadovsky, Siegfried Hoyer, Peter Riederer, B. Haug, Thomas Arzberger, H. Bernheimer, M. Seemann, Karl-Heinz Sontag, D. Bengel, L. Demisch, W. Danielczyk, Bettina Holtmann, Ullrich Wüllner, E. Hermans, E. V. Khrapova, G. B. Landwehrmeyer, A. Tylki-Szymanska, R. Brinkmann, F. Remeš, B. Kanner, S. L. Timerbaeva, P. Piccini, Susanne Petri, W. Wesemann, G. Ulmar, F. Rausch, Leontino Battistin, U. Ziemann, H. B. Pollard, Gerhard Ransmayr, P. Mečíř, C. Mattern, U. Gärtner, S. Sopper, Moussa B.H. Youdim, Michael Deuschle, M. Pozza, H. Schubert, G. Goping, Rainer Spanagel, Lutz Frölich, L. HaveIec, Martina K. Brückner, W. Gsell, Werner Poewe, M. Da Prada, J. Hartmann, H. J. Stürenburg, B. Löschl, M. Norta, J. Dichgans, G. Stern, J. Mayr, Elda Scherini, D. Bleyl, A. Colzi, P. Rosario, C. D'Avino, J. X Xie, Klaus-Peter Lesch, M. Demuth, M. Ymamoto, A. Toso, K. Lehmann, F. Eblen, J. Thome, R. Burger, S. Šega, G. Farci, Evžen Růžička, F. W. H. M. Merkus, I. Strein, M. Rösler, T. Jaros, D. Barletta, W. W. Chan, U. Havemann-Reinecke, T. Kiauta, R. A. I. de Vos, S. Fähr, A. Körner, A. J. Willemsen, P. J. Neveu, A. V. Moshkin, A. Kleinschroth, L. A. Avdyuna, Johannes Kornhuber, Ryan J. Uitti, R. Häcker, Jan Roth, E. C. Laterre, H. Sternadl, Amos D. Korczyn, G. Künig, Werner E.G. Müller, W. Berger, G. Racagni, S. Salvetti, G. M. Emilien, Parsadanian As, K. Kunze, G. Sperk, D. Högemann, H. Maier, S. Behrens, D. K. Teherani, C Pardini, Karlheinz Reiners, T. S. Chen, C. J. Eggett, L. Popova, H. Reichmann, J. M. Rabey, H. Hartmann, Arvid Carlsson, B. Lawlor, F. Bürklin, O. Gleichauf, and S. Hemm
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0303 health sciences ,medicine.medical_specialty ,Public health ,03 medical and health sciences ,Psychiatry and Mental health ,0302 clinical medicine ,Neurology ,medicine ,Neurology (clinical) ,Psychiatry ,Psychology ,Neuroscience ,030217 neurology & neurosurgery ,Biological Psychiatry ,Neuropharmacology ,030304 developmental biology - Published
- 1995
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31. Construction and performance of a silicon photomultiplier/extruded scintillator tail-catcher and muon-tracker
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C Adloff, J Blaha, J -J Blaising, C Drancourt, A Espargilière, R Gaglione, N Geffroy, Y Karyotakis, J Prast, G Vouters, B Bilki, K Francis, J Repond, J Smith, L Xia, E Baldolemar, J Li, S T Park, M Sosebee, A P White, J Yu, T Buanes, G Eigen, Y Mikami, N K Watson, G Mavromanolakis, M A Thomson, D R Ward, W Yan, D Benchekroun, A Hoummada, Y Khoulaki, M Benyamna, C Cârloganu, F Fehr, P Gay, S Manen, L Royer, G C Blazey, S Boona, D Chakraborty, A Dyshkant, D Hedin, J G R Lima, J Powell, V Rykalin, N Scurti, M Smith, N Tran, V Zutshi, J -Y Hostachy, L Morin, U Cornett, D David, J Dietrich, G Falley, K Gadow, P Göttlicher, C Günter, B Hermberg, S Karstensen, F Krivan, A -I Lucaci-Timoce, S Lu, B Lutz, I Marchesini, S Morozov, V Morgunov, M Reinecke, F Sefkow, P Smirnov, M Terwort, A Vargas-Trevino, N Feege, E Garutti, P Eckert, A Kaplan, H -Ch Schultz-Coulon, W Shen, R Stamen, A Tadday, E Norbeck, Y Onel, G W Wilson, K Kawagoe, S Uozumi, P D Dauncey, A -M Magnan, V Bartsch, M Wing, F Salvatore, E Calvo Alamillo, M -C Fouz, J Puerta-Pelayo, B Bobchenko, M Chadeeva, M Danilov, A Epifantsev, O Markin, R Mizuk, E Novikov, V Rusinov, E Tarkovsky, N Kirikova, V Kozlov, Y Soloviev, P Buzhan, B Dolgoshein, A Ilyin, V Kantserov, V Kaplin, A Karakash, E Popova, S Smirnov, A Frey, C Kiesling, K Seidel, F Simon, C Soldner, L Weuste, J Bonis, B Bouquet, S Callier, P Cornebise, Ph Doublet, F Dulucq, M Faucci Giannelli, J Fleury, H Li, G Martin-Chassard, F Richard, Ch de la Taille, R Pöschl, L Raux, N Seguin-Moreau, F Wicek, M Anduze, V Boudry, J-C Brient, D Jeans, P Mora de Freitas, G Musat, M Reinhard, M Ruan, H Videau, B Bulanek, J Zacek, J Cvach, P Gallus, M Havranek, M Janata, J Kvasnicka, D Lednicky, M Marcisovsky, I Polak, J Popule, L Tomasek, M Tomasek, P Ruzicka, P Sicho, J Smolik, V Vrba, J Zalesak, B Belhorma, H Ghazlane, T Takeshita, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), Laboratoire Leprince-Ringuet (LLR), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), CALICE, Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)
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Physics - Instrumentation and Detectors ,International Linear Collider ,Physics::Instrumentation and Detectors ,FOS: Physical sciences ,Scintillator ,[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex] ,Tracking (particle physics) ,01 natural sciences ,7. Clean energy ,High Energy Physics - Experiment ,Nuclear physics ,High Energy Physics - Experiment (hep-ex) ,Silicon photomultiplier ,0103 physical sciences ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,Fermilab ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Nuclear Experiment (nucl-ex) ,Detectors and Experimental Techniques ,010306 general physics ,Nuclear Experiment ,Instrumentation ,Mathematical Physics ,Physics ,Large Hadron Collider ,010308 nuclear & particles physics ,Detector ,Instrumentation and Detectors (physics.ins-det) ,Calorimeter ,Physics::Accelerator Physics ,High Energy Physics::Experiment - Abstract
A prototype module for an International Linear Collider (ILC) detector was built, installed, and tested between 2006 and 2009 at CERN and Fermilab as part of the CALICE test beam program, in order to study the possibilities of extending energy sampling behind a hadronic calorimeter and to study the possibilities of providing muon tracking. The "tail catcher/muon tracker" (TCMT) is composed of 320 extruded scintillator strips (dimensions 1000 mm x 50 mm x 5 mm) packaged in 16 one-meter square planes interleaved between steel plates. The scintillator strips were read out with wavelength shifting fibers and silicon photomultipliers. The planes were arranged with alternating horizontal and vertical strip orientations. Data were collected for muons and pions in the energy range 6 GeV to 80 GeV. Utilizing data taken in 2006, this paper describes the design and construction of the TCMT, performance characteristics, and a beam-based evaluation of the ability of the TCMT to improve hadronic energy resolution in a prototype ILC detector. For a typical configuration of an ILC detector with a coil situated outside a calorimeter system with a thickness of 5.5 nuclear interaction lengths, a TCMT would improve relative energy resolution by 6-16 % for pions between 20 and 80 GeV., 23 pages, 18 figures, 4 tables, submitted to JINST
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- 2012
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32. Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider
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U. Cornett, C. Adloff, M. A. Thomson, M. Reinecke, J. Fleury, S. Callier, D. David, Jose Repond, O. Wendt, N. Feege, E. Calvo Alamillo, Andrew White, Kiyotomo Kawagoe, D. Trojand, Y. Mikami, N. Wattimena, H. Li, Frank Simon, P. Cornebise, F. Fehr, B. Lutz, P. Eckert, D. R. Ward, M. C. Fouz, J-Y. Hostachy, Jiang Li, Ivan Marchesini, K. Francis, M. Terwort, P. D. Dauncey, L. Raux, Wei Shen, H. Ch Schultz-Coulon, E. Norbeck, Johannes Haller, S. Richter, A.S. Dyshkant, P. A. Smirnov, H. Ghazlane, Ph. Doublet, Vaclav Vrba, Jong-Sung Yu, J. Samson, V. Morgunov, E. Baldolemar, V. Boudry, K. Gadow, Erika Garutti, Daniel Jeans, Manqi Ruan, G. Falley, Anne-Marie Magnan, N. K. Watson, M. Faucci Giannelli, S. Lu, S. Karstensen, F. Krivan, P. Göttlicher, C. Günter, P. Mora de Freitas, M. Sosebee, F. Salvatore, F. Dulucq, G. C. Blazey, B. Belhorma, F. Wicek, Ch. de la Taille, S. V. Morozov, Yasar Onel, J. Bonis, Petr Sicho, Driss Benchekroun, Imad Baptiste Laktineh, L. Morin, N. T. Meyer, C. Kiesling, Y. Khoulaki, M. Reinhard, G. Musat, S. Manen, A. Tadday, Michal Marcisovsky, Lei Xia, A. I. Lucaci-Timoce, A. Vargas-Trevino, Abdeslam Hoummada, J. Zálešák, N. Seguin-Moreau, F. Sefkow, Francois Richard, R. Pöschl, S. Uozumi, Burak Bilki, A. Frey, H. Videau, G. Martin-Chassard, C. Cârloganu, Rainer Stamen, A. Kaplan, J. Puerta-Pelayo, B. Bouquet, L. Royer, J. Smith, M. Benyamna, Georgios Mavromanolakis, W. Yan, V. Zutshi, J. C. Brient, Riccardo Fabbri, S. T. Park, V. Bartsch, M. Anduze, Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), Institut de Physique Nucléaire de Lyon (IPNL), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire Leprince-Ringuet (LLR), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), CALICE, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), and Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)
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Nuclear and High Energy Physics ,Particle physics ,High energy particle ,Physics - Instrumentation and Detectors ,Physics::Instrumentation and Detectors ,FOS: Physical sciences ,Integrated circuit ,01 natural sciences ,Noise (electronics) ,law.invention ,High Energy Physics - Experiment ,High Energy Physics - Experiment (hep-ex) ,Optics ,Application-specific integrated circuit ,law ,0103 physical sciences ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,ddc:530 ,Electronics ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Detectors and Experimental Techniques ,010306 general physics ,Collider ,Instrumentation ,Physics ,010308 nuclear & particles physics ,business.industry ,Detector ,Instrumentation and Detectors (physics.ins-det) ,Calorimeter ,High Energy Physics::Experiment ,business - Abstract
Application Specific Integrated Circuits, ASICs, similar to those envisaged for the readout electronics of the central calorimeters of detectors for a future lepton collider have been exposed to high-energy electromagnetic showers. A salient feature of these calorimeters is that the readout electronics will be embedded into the calorimeter layers. In this article it is shown that interactions of shower particles in the volume of the readout electronics do not alter the noise pattern of the ASICs. No signal at or above the MIP level has been observed during the exposure. The upper limit at the 95% confidence level on the frequency of fake signals is smaller than 1 × 10 − 5 for a noise threshold of about 60% of a MIP. For ASICs with similar design to those which were tested, it can thus be largely excluded that the embedding of the electronics into the calorimeter layers compromises the performance of the calorimeters.
- Published
- 2011
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33. Electromagnetic response of a highly granular hadronic calorimeter
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The CALICE collaboration, C Adloff, J Blaha, J -J Blaising, C Drancourt, A Espargilière, R Gaglione, N Geffroy, Y Karyotakis, J Prast, G Vouters, K Francis, J Repond, J Smith, L Xia, E Baldolemar, J Li, S T Park, M Sosebee, A P White, J Yu, Y Mikami, N K Watson, T Goto, G Mavromanolakis, M A Thomson, D R Ward, W Yan, D Benchekroun, A Hoummada, Y Khoulaki, M Benyamna, C Cârloganu, F Fehr, P Gay, S Manen, L Royer, G C Blazey, A Dyshkant, J G R Lima, V Zutshi, J -Y Hostachy, L Morin, U Cornett, D David, R Fabbri, G Falley, K Gadow, E Garutti, P Göttlicher, C Günter, S Karstensen, F Krivan, A -I Lucaci-Timoce, S Lu, B Lutz, I Marchesini, N Meyer, S Morozov, V Morgunov, M Reinecke, F Sefkow, P Smirnov, M Terwort, A Vargas-Trevino, N Wattimena, O Wendt, N Feege, J Haller, S Richter, J Samson, P Eckert, A Kaplan, H -Ch Schultz-Coulon, W Shen, R Stamen, A Tadday, B Bilki, E Norbeck, Y Onel, G W Wilson, K Kawagoe, S Uozumi, J A Ballin, P D Dauncey, A -M Magnan, H S Yilmaz, O Zorba, V Bartsch, M Postranecky, M Warren, M Wing, F Salvatore, E Calvo Alamillo, M -C Fouz, J Puerta-Pelayo, V Balagura, B Bobchenko, M Chadeeva, M Danilov, A Epifantsev, O Markin, R Mizuk, E Novikov, V Rusinov, E Tarkovsky, V Kozlov, Y Soloviev, P Buzhan, B Dolgoshein, A Ilyin, V Kantserov, V Kaplin, A Karakash, E Popova, S Smirnov, A Frey, C Kiesling, K Seidel, F Simon, C Soldner, L Weuste, J Bonis, B Bouquet, S Callier, P Cornebise, Ph Doublet, F Dulucq, M Faucci Giannelli, J Fleury, G Guilhem, H Li, G Martin-Chassard, F Richard, Ch de la Taille, R Pöschl, L Raux, N Seguin-Moreau, F Wicek, M Anduze, V Boudry, J-C Brient, D Jeans, P Mora de Freitas, G Musat, M Reinhard, M Ruan, H Videau, B Bulanek, J Zacek, J Cvach, P Gallus, M Havranek, M Janata, J Kvasnicka, D Lednicky, M Marcisovsky, I Polak, J Popule, L Tomasek, M Tomasek, P Ruzicka, P Sicho, J Smolik, V Vrba, J Zalesak, B Belhorma, H Ghazlane, K Kotera, M Nishiyama, T Takeshita, S Tozuka, T Buanes, G Eigen, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de l'Accélérateur Linéaire (LAL), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Laboratoire Leprince-Ringuet (LLR), Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), CALICE, Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS)
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Materials science ,Physics - Instrumentation and Detectors ,International Linear Collider ,Physics::Instrumentation and Detectors ,FOS: Physical sciences ,Scintillator ,01 natural sciences ,7. Clean energy ,Optics ,Silicon photomultiplier ,0103 physical sciences ,Calibration ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Detectors and Experimental Techniques ,010306 general physics ,Instrumentation ,Mathematical Physics ,Large Hadron Collider ,010308 nuclear & particles physics ,business.industry ,Detector ,Instrumentation and Detectors (physics.ins-det) ,Calorimeter ,High Energy Physics::Experiment ,business ,Beam (structure) - Abstract
The CALICE collaboration is studying the design of high performance electromagnetic and hadronic calorimeters for future International Linear Collider detectors. For the hadronic calorimeter, one option is a highly granular sampling calorimeter with steel as absorber and scintillator layers as active material. High granularity is obtained by segmenting the scintillator into small tiles individually read out via silicon photo-multipliers (SiPM). A prototype has been built, consisting of thirty-eight sensitive layers, segmented into about eight thousand channels. In 2007 the prototype was exposed to positrons and hadrons using the CERN SPS beam, covering a wide range of beam energies and incidence angles. The challenge of cell equalization and calibration of such a large number of channels is best validated using electromagnetic processes. The response of the prototype steel-scintillator calorimeter, including linearity and uniformity, to electrons is investigated and described.
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- 2011
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34. ChemInform Abstract: Catalytic Transesterifications
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N. V. STEPYCHEVA, V. A. IGNATOV, A. V. MORGUNOV, and N. A. SUKHANOVA
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General Medicine - Published
- 2010
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35. Study of the interactions of pions in the CALICE silicon-tungsten calorimeter prototype
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The CALICE collaboration, C Adloff, Y Karyotakis, J Repond, J Yu, G Eigen, Y Mikami, N K Watson, J A Wilson, T Goto, G Mavromanolakis, M A Thomson, D R Ward, W Yan, D Benchekroun, A Hoummada, Y Khoulaki, J Apostolakis, A Ribon, V Uzhinskiy, M Benyamna, C Cârloganu, F Fehr, P Gay, G C Blazey, D Chakraborty, A Dyshkant, K Francis, D Hedin, J G Lima, V Zutshi, J -Y Hostachy, K Krastev, L Morin, N D'Ascenzo, U Cornett, D David, R Fabbri, G Falley, K Gadow, E Garutti, P Göttlicher, T Jung, S Karstensen, A -I Lucaci-Timoce, B Lutz, N Meyer, V Morgunov, M Reinecke, F Sefkow, P Smirnov, A Vargas-Trevino, N Wattimena, O Wendt, N Feege, M Groll, J Haller, R -D Heuer, S Morozov, S Richter, J Samson, A Kaplan, H -Ch Schultz-Coulon, W Shen, A Tadday, B Bilki, E Norbeck, Y Onel, E J Kim, G Kim, D-W Kim, K Lee, S C Lee, K Kawagoe, Y Tamura, P D Dauncey, A -M Magnan, H Yilmaz, O Zorba, V Bartsch, M Postranecky, M Warren, M Wing, M G Green, F Salvatore, M Bedjidian, R Kieffer, I Laktineh, M -C Fouz, D S Bailey, R J Barlow, M Kelly, R J Thompson, M Danilov, E Tarkovsky, N Baranova, D Karmanov, M Korolev, M Merkin, A Voronin, A Frey, S Lu, K Seidel, F Simon, C Soldner, L Weuste, J Bonis, B Bouquet, S Callier, P Cornebise, Ph Doublet, M Faucci Giannelli, J Fleury, H Li, G Martin-Chassard, F Richard, Ch de la Taille, R Poeschl, L Raux, N Seguin-Moreau, F Wicek, M Anduze, V Boudry, J-C Brient, G Gaycken, D Jeans, P Mora de Freitas, G Musat, M Reinhard, A Rougé, M Ruan, J-Ch Vanel, H Videau, K-H Park, J Zacek, J Cvach, P Gallus, M Havranek, M Janata, M Marcisovsky, I Polak, J Popule, L Tomasek, M Tomasek, P Ruzicka, P Sicho, J Smolik, V Vrba, J Zalesak, B Belhorma, M Belmir, S W Nam, I H Park, J Yang, J -S Chai, J -T Kim, G -B Kim, J Kang, Y -J Kwon, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire de l'Accélérateur Linéaire (LAL), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Laboratoire Leprince-Ringuet (LLR), Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), CALICE, Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), and Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)
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Physics - Instrumentation and Detectors ,Physics::Instrumentation and Detectors ,Monte Carlo method ,Hadron ,FOS: Physical sciences ,Electron ,01 natural sciences ,High Energy Physics - Experiment ,Nuclear physics ,High Energy Physics - Experiment (hep-ex) ,Pion ,0103 physical sciences ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,CALICE ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,ddc:610 ,Detectors and Experimental Techniques ,010306 general physics ,Nuclear Experiment ,Instrumentation ,Mathematical Physics ,Physics ,Large Hadron Collider ,Calorimeter (particle physics) ,010308 nuclear & particles physics ,Detector ,Instrumentation and Detectors (physics.ins-det) ,Physics::Accelerator Physics ,High Energy Physics::Experiment - Abstract
A prototype silicon-tungsten electromagnetic calorimeter for an ILC detector was tested in 2007 at the CERN SPS test beam. Data were collected with electron and hadron beams in the energy range 8 to 80 GeV. The analysis described here focuses on the interactions of pions in the calorimeter. One of the main objectives of the CALICE program is to validate the Monte Carlo tools available for the design of a full-sized detector. The interactions of pions in the Si-W calorimeter are therefore confronted with the predictions of various physical models implemented in the GEANT4 simulation framework. A prototype silicon-tungsten electromagnetic calorimeter for an ILC detector was tested in 2007 at the CERN SPS test beam. Data were collected with electron and hadron beams in the energy range 8 to 80 GeV. The analysis described here focuses on the interactions of pions in the calorimeter. One of the main objectives of the CALICE program is to validate the Monte Carlo tools available for the design of a full-sized detector. The interactions of pions in the Si-W calorimeter are therefore confronted with the predictions of various physical models implemented in the GEANT4 simulation framework.
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- 2010
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36. Construction and Commissioning of the CALICE Analog Hadron Calorimeter Prototype
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The CALICE collaboration, C Adloff, Y Karyotakis, J Repond, A Brandt, H Brown, K De, C Medina, J Smith, J Li, M Sosebee, A White, J Yu, T Buanes, G Eigen, Y Mikami, O Miller, N K Watson, J A Wilson, T Goto, G Mavromanolakis, M A Thomson, D R Ward, W Yan, D Benchekroun, A Hoummada, Y Khoulaki, M Oreglia, M Benyamna, C Cârloganu, P Gay, J Ha, G C Blazey, D Chakraborty, A Dyshkant, K Francis, D Hedin, G Lima, V Zutshi, V A Babkin, S N Bazylev, Yu I Fedotov, V M Slepnev, I A Tiapkin, S V Volgin, J -Y Hostachy, L Morin, N D'Ascenzo, U Cornett, D David, R Fabbri, G Falley, N Feege, K Gadow, E Garutti, P Göttlicher, T Jung, S Karstensen, V Korbel, A -I Lucaci-Timoce, B Lutz, N Meyer, V Morgunov, M Reinecke, S Schätzel, S Schmidt, F Sefkow, P Smirnov, A Vargas-Trevino, N Wattimena, O Wendt, M Groll, R -D Heuer, S Richter, J Samson, A Kaplan, H -Ch Schultz-Coulon, W Shen, A Tadday, B Bilki, E Norbeck, Y Onel, E J Kim, G Kim, D-W Kim, K Lee, S C Lee, K Kawagoe, Y Tamura, J A Ballin, P D Dauncey, A -M Magnan, H Yilmaz, O Zorba, V Bartsch, M Postranecky, M Warren, M Wing, M Faucci Giannelli, M G Green, F Salvatore, R Kieffer, I Laktineh, M C Fouz, D S Bailey, R J Barlow, R J Thompson, M Batouritski, O Dvornikov, Yu Shulhevich, N Shumeiko, A Solin, P Starovoitov, V Tchekhovski, A Terletski, B Bobchenko, M Chadeeva, M Danilov, O Markin, R Mizuk, E Novikov, V Rusinov, E Tarkovsky, V Andreev, N Kirikova, A Komar, V Kozlov, Y Soloviev, A Terkulov, P Buzhan, B Dolgoshein, A Ilyin, V Kantserov, V Kaplin, A Karakash, E Popova, S Smirnov, N Baranova, E Boos, L Gladilin, D Karmanov, M Korolev, M Merkin, A Savin, A Voronin, A Topkar, A Frey, C Kiesling, S Lu, K Prothmann, K Seidel, F Simon, C Soldner, L Weuste, B Bouquet, S Callier, P Cornebise, F Dulucq, J Fleury, H Li, G Martin-Chassard, F Richard, Ch de la Taille, R Poeschl, L Raux, M Ruan, N Seguin-Moreau, F Wicek, M Anduze, V Boudry, J-C Brient, G Gaycken, R Cornat, D Jeans, P Mora de Freitas, G Musat, M Reinhard, A Rougé, J-Ch Vanel, H Videau, K-H Park, J Zacek, J Cvach, P Gallus, M Havranek, M Janata, J Kvasnicka, M Marcisovsky, I Polak, J Popule, L Tomasek, M Tomasek, P Ruzicka, P Sicho, J Smolik, V Vrba, J Zalesak, Yu Arestov, V Ammosov, B Chuiko, V Gapienko, Y Gilitski, V Koreshev, A Semak, Yu Sviridov, V Zaets, B Belhorma, M Belmir, A Baird, R N Halsall, S W Nam, I H Park, J Yang, J -S Chai, J -T Kim, G -B Kim, Y Kim, J Kang, Y -J Kwon, I Kim, T Lee, J Park, J Sung, S Itoh, K Kotera, M Nishiyama, T Takeshita, S Weber, C Zeitnitz, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Laboratoire de l'Accélérateur Linéaire (LAL), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Laboratoire Leprince-Ringuet (LLR), Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), CALICE, Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), and Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)
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Physics - Instrumentation and Detectors ,Physics::Instrumentation and Detectors ,Hadron ,FOS: Physical sciences ,Scintillator ,7. Clean energy ,01 natural sciences ,High Energy Physics - Experiment ,High Energy Physics - Experiment (hep-ex) ,Silicon photomultiplier ,Optics ,0103 physical sciences ,Calibration ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,CALICE ,ddc:610 ,Fermilab ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,Detectors and Experimental Techniques ,010306 general physics ,Instrumentation ,Mathematical Physics ,Physics ,Large Hadron Collider ,010308 nuclear & particles physics ,business.industry ,DESY ,Instrumentation and Detectors (physics.ins-det) ,Physics::Accelerator Physics ,High Energy Physics::Experiment ,business - Abstract
An analog hadron calorimeter (AHCAL) prototype of 5.3 nuclear interaction lengths thickness has been constructed by members of the CALICE Collaboration. The AHCAL prototype consists of a 38-layer sandwich structure of steel plates and highly-segmented scintillator tiles that are read out by wavelength-shifting fibers coupled to SiPMs. The signal is amplified and shaped with a custom-designed ASIC. A calibration/monitoring system based on LED light was developed to monitor the SiPM gain and to measure the full SiPM response curve in order to correct for non-linearity. Ultimately, the physics goals are the study of hadron shower shapes and testing the concept of particle flow. The technical goal consists of measuring the performance and reliability of 7608 SiPMs. The AHCAL was commissioned in test beams at DESY and CERN. The entire prototype was completed in 2007 and recorded hadron showers, electron showers and muons at different energies and incident angles in test beams at CERN and Fermilab., Comment: 36 pages, 32 figures
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- 2010
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37. Response of the CALICE Si-W electromagnetic calorimeter physics prototype to electrons
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Ch. de la Taille, N. T. Meyer, T. Jung, I. H. Park, Y. Karyotakis, K. Francis, J. Zalesak, C. Cârloganu, H. Videau, O. Miller, F. Salvatore, Djamel Eddine Boumediene, C. M. Hawkes, M. Faucci Giannelli, Shih-Chang Lee, M. Belmir, E. Norbeck, Y. J. Kwon, Dev P. Chakraborty, J. Popule, O. Wendt, M. Krim, M. Postranecky, A. A. Voronin, G. C. Blazey, J. Zacek, S. Richter, Kyong Sei Lee, P. Mora e Freitas, V. Morgunov, Riccardo Fabbri, M. Bedjidian, N. Brun, R. Poeschl, Ki-Hyeon Park, Erika Garutti, Francois Richard, S. Lu, D. David, D-W. Kim, H. Yilmaz, G. Falley, G. Lima, F. Wicek, Petr Gallus, J. Cvach, Michal Marcisovsky, B. Lutz, C. Adloff, M. Tomášek, Geun-Bum Kim, B. Belhorma, A. Frey, D. S. Bailey, Jose Repond, A. Tadday, L. Raux, R. J. Barlow, Driss Benchekroun, Johannes Haller, A. I. Lucaci-Timoce, Abdeslam Hoummada, F. Morisseau, P. Ruzicka, P. A. Smirnov, Vaclav Vrba, Petr Sicho, V. Korbel, I. Polak, A. Kaplan, A. Vargas-Trevino, M. Janata, Imad Baptiste Laktineh, N. I. Baek, K. Prothmann, Goetz Gaycken, J. Smolik, P. D. Dauncey, J.Ch. Vanel, E. Tarkovsky, A.S. Dyshkant, N. Seguin-Moreau, Jong-Sung Yu, W. Yan, J. Fleury, J-Y. Hostachy, G. Mavromanolakis, Yasar Onel, M. Merkin, Burak Bilki, M. Reinecke, J. C. Brient, M. Anduze, D. A. Bowerman, R. D. Heuer, Kiyotomo Kawagoe, J. H. Kang, Nicola D'Ascenzo, P. Göttlicher, M. Reinhard, F. Sefkow, Y. Tamura, Miroslav Havranek, D. Karmanov, U. Cornett, M. Groll, B. Bouquet, N. Baranova, Frank Simon, Hui Li, M. A. Thomson, E.J. Kim, G. Musat, M. Korolev, J T Kim, J. A. Wilson, G. Eigen, J. Samson, M R M Warren, N. K. Watson, V. Zutshi, Vincent Boudry, R. Kieffer, Jong-Seo Chai, Y. Mikami, S. W. Nam, R. J. Thompson, Anne-Marie Magnan, D. R. Ward, M. G. Green, K. Gadow, O. Zorba, M. Wing, S. Karstensen, L. Morin, N. Wattimena, V. Bartsch, M. Benyamna, S. Callier, T. Goto, P. Cornebise, D. Hedin, Michael Kelly, Wei Shen, H. Ch Schultz-Coulon, L. Tomášek, A. Rougé, N. Feege, M. Danilov, J. Yang, Manqi Ruan, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de l'Accélérateur Linéaire (LAL), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Laboratoire Leprince-Ringuet (LLR), Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), CALICE, Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS)
- Subjects
Accelerator Physics (physics.acc-ph) ,Nuclear and High Energy Physics ,Particle physics ,Physics - Instrumentation and Detectors ,Silicon detector ,International Linear Collider ,Physics::Instrumentation and Detectors ,[PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph] ,FOS: Physical sciences ,Electron ,01 natural sciences ,7. Clean energy ,Nuclear physics ,Electromagnetic calorimeter ,0103 physical sciences ,CALICE ,ddc:530 ,[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] ,010306 general physics ,Nuclear Experiment ,physics.ins-det ,Instrumentation ,Physics ,Large Hadron Collider ,010308 nuclear & particles physics ,Detector ,Linearity ,Instrumentation and Detectors (physics.ins-det) ,3. Good health ,Semiconductor detector ,ILC ,Electron reconstruction ,13. Climate action ,Cathode ray ,Physics::Accelerator Physics ,Physics - Accelerator Physics ,High Energy Physics::Experiment - Abstract
A prototype Silicon-Tungsten electromagnetic calorimeter (ECAL) for an International Linear Collider (ILC) detector was installed and tested during summer and autumn 2006 at CERN. The detector had 6480 silicon pads of dimension 1x1 cm^2. Data were collected with electron beams in the energy range 6 to 45 GeV. The analysis described in this paper focuses on electromagnetic shower reconstruction and characterises the ECAL response to electrons in terms of energy resolution and linearity. The detector is linear to within approximately the 1% level and has a relative energy resolution of (16.6 +- 0.1)/ \sqrt{E(GeV}) + 1.1 +- 0.1 (%). The spatial uniformity and the time stability of the ECAL are also addressed., 21 pages, 17 figs
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- 2009
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38. A measurement of the forward-backward asymmetry
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Qi An, S. Lökös, K.S. Yang, Th. Rombach, Simonetta Gentile, Kenneth Francis Read, G. Conforto, C. Dionisi, L. Li, Dimitri Bourilkov, V. Plyaskin, D. Duchesneau, Pablo Garcia-Abia, Alain Hervé, B. Spiess, Y. Mi, A. Bay, Carlo Civinini, Alexander Malinin, M. Guanziroli, M. Maolinbay, R. Leiste, J. P. Martin, L. J. Gutay, H. Anderhub, J.F. Li, Luciano Romero, Bolek Wyslouch, Qian Wang, M. Fabre, S. X. Wu, X.G. Li, D. DiBitonto, Ph. Rosselet, M. Steuer, P. Marchesini, Ming Zeng, D. Pandoulas, T. McMahon, Raffaello D'Alessandro, S. C. Tonwar, T. Spickermann, S. L. Wu, Frank Filthaut, E. Shumilov, U. Becker, G. Sauvage, H. Suter, Georgi Sultanov, Y.F. Wang, M. Aguilar-Benitez, I. Duran, G. Forconi, Herwig Schopper, J. Weber, V. Lalieu, C. Grinnell, M. Möller, R. A. Khan, U. Roeser, M. Röhner, M. Schöntag, R. Rosmalen, Valentin V. Khoze, L.S. Hsu, W. Böhlen, V. Shoutko, M. White, Leonardo Merola, L. Urbàn, Bernard Ille, M. N. Kienzle, Harvey B Newman, K. Hilgers, C. F. He, V. Koutsenko, C-Q. Li, Petr Levchenko, S. Röhner, Y. H. Chang, F. Wittgenstein, George Alverson, Yanwen Liu, Qiang Li, R. Bizzarri, S. Hancke, L. Ludovici, V. P. Andreev, H. F. Chen, T. Azemoon, E. Drago, M. Sachwitz, Y.F. Mao, R. T. Van de Walle, G.J. Bobbink, Yu. Kamyshkov, T. Kramer, Ian Brock, F. DeNotaristefani, A. Arefiev, L. Niessen, L. Leistam, Vineet Kumar, T. Driever, J.P. Burq, R. de Asmundis, B. Bouwens, F. J. Eppling, L. W. Jones, M. Chemarin, J. J. Blaising, D. S. Yan, Jozsef Toth, Gaihe Yang, J. Lettry, Claudio Luci, D.N. Mao, K. N. Qureshi, Marcos Cerrada, D. Hauschildt, V. Shevchenko, U. Herten, Egidio Longo, Aa Vorobyov, I. Scott, M. Tonutti, G. Herten, C. Spartiotis, Mw Gruenewald, B. Monteleoni, R. Magahiz, E. Jagel, A. Pevsner, M. Harris, Kajari Mazumdar, S. Khokhar, G. M. Chen, Barry Blumenfeld, S. M. Ting, R.J. Wu, A. Sopczak, W. Friebel, G. Faber, G. B. Mills, P. Berges, Elisabetta Gallo, O. Fackler, M. Gailloud, P.G. Seiler, Igor Vorobiev, C. Camps, J. D. Swain, P. McBride, K. Freudenreich, Yu. Galaktionov, M.L. Chen, A. Kuhn, R. Morand, H. Haan, C. G. Yang, Chenliang Wang, M. Maire, F. Diez-Hedo, L. Antonov, W. Kittel, Valery Schegelsky, Antonino Zichichi, J.M. Lubbers, Xd Cai, Ph Fisher, J. Alcaraz, E. Dénes, R. Sehgal, Peter Denes, G. Schwering, Z. L. Xue, Mariagrazia Alviggi, H. Rykaczewski, R. Dolin, M. Hebert, Panos A Razis, J.C. Sens, R. Raghavan, A. C. König, Y.P. Tong, M. J. Glaubman, J. A. Bakken, Marcella Diemoz, E. Nagy, Paolo Bagnaia, Y. Karyotakis, C. Maña, L. Z. Sun, Marco Meschini, M. M. Ilyas, W. Ruckstuhl, D. P. Stickland, S. Reucroft, Laurent Vuilleumier, J. Krizmanic, P. Blömeke, K. S. Kumar, E. Isiksal, H. Fenker, A. Marchionni, Cheng Chen, M. Fukushima, D. Kirkby, H. El Mamouni, Howard A. Stone, I. Vetlitsky, G. Von Dardel, T. Fergusson, T.S. Dai, A. Gordeev, M. Micke, M. Schneegans, D. M. Lee, X. L. Wang, B. Stöhr, R. Fabbretti, V.R. Krastev, C. Zaccardelli, M. Vivargent, A. Degré, B. P. Roe, A. Böhm, G. Landi, Christine Buisson, R. L. Summer, L. Baksay, W. W. Kinnison, Z. M. Wang, S. Beingessner, Jean Fay, E. Gonzalez, T. Böhringer, M. Dhina, Y. Mir, F. Tonisch, Q. Fan, G. Coignet, C. H. Ye, Sc Yeh, F. Marzano, D. Boutigny, R.C. Ball, J.M. Qian, E. Valente, Adrian Biland, R. Weill, F. Ferroni, G. H. Wang, Y. Zeng, Ren-Yuan Zhu, W. Krenz, A. Klimentov, G. Fernandez, J. M. Le Goff, J. M. Salicio, J. Mnich, G. Gratta, T. Foreman, Z. Y. Lin, U. Micke, Z.Q. Yang, P. Arce, P. Vikas, Luciano Barone, J. Wenninger, S. Lanzano, Bernardo Adeva, D. Linnhofer, G. S. Sanders, Z.F. Gong, Y.J. Pei, R. Mount, D. McNally, D. Goujon, C.Y. Chien, Lamberto Luminari, Wolfgang Lohmann, H. Vogt, K.D. Shmakov, S. J. Fan, J. A. Rubio, F. Plasil, A. Bujak, Oliver Kornadt, E. Thomas, J.H. Wang, F.C. Erné, Q.Y. Yang, G. Chiefari, V. Pojidaev, M. Pohl, B. Bertucci, P. Duinker, D. Zhang, Mingshui Chen, F. Cesaroni, W. Wallraff, A. Gurtu, Vincenzo Innocente, G. Viertel, Guofan Hu, Samuel C.C. Ting, S. Shevchenko, V. Commichau, H. J. Schreiber, J. Ulbricht, Zhongyukun Xu, P. K. Malhotra, J. Y. Liao, O. Rind, J. Fehlmann, J. Berdugo, Nicanor Colino, J. Bao, Nikita Smirnov, M. Lenti, Federico Carminati, Zm Wang, B. Borgia, H. A. Rizvi, A. Kunin, H. O. Cohn, V. Morgunov, H. R. Gustafson, M. Bocciolini, M. Bourquin, A. L. Anderson, Hans J. Vogel, S. Morganti, K. Sudhakar, H. van der Graaf, J. Schütte, Pierre Lecomte, J. G. Branson, A. Engler, A. Hasan, D. Ren, K. Strauch, X. Leytens, Steven Goldfarb, J. Schwenke, G. Sartorelli, A. van Laak, X. Y. Cui, An.A. Vorobyov, M. Capell, Ying Wu, J. F. Zhou, Hafeez R. Hoorani, R.B. Sutton, G. Passaleva, Y. D. Xu, Z. W. Yin, S. N. Ganguli, Charles Timmermans, U. Vikas, T. Matsuda, D. Perret-Gallix, H. S. Fesefeldt, D.H. Zhang, M. MacDermott, J. Behrens, P. J. Li, F. Bruyant, A. Contin, Alexander Savin, B. N. Jin, S. Patricelli, M. A. Niaz, P. Lebrun, Fridolin Dittus, O. Adriani, Lucas Taylor, Q. Ye, X.R. Shi, M. Yzerman, R. Malik, Zhen Zhang, P. Extermann, I. Clare, J. Busenitz, A.M. Cartacci, I. Leedom, B. Z. Yang, B. L. Betev, W. J. Metzger, H. Hofer, K. L. Tung, U. Uwer, H.R. Dimitrov, G. Mirabelli, A. Chen, S. Rosier-Lees, P. Le Coultre, P. Göttlicher, J. Salicio, G.G.G. Massaro, J. D. Burger, F. Carbonara, Wolfgang Stoeffl, G. Morand, G. Rahal-Callot, K. Lübelsmeyer, Piero Spillantini, X. Lue, U. K. Chaturvedi, L. Martinez, Y. S. Lu, M.C. Chen, K. Hangarter, Jérôme Rose, K. Schultze, F. L. Linde, R. Wilhelm, J. H. Field, E. Tarkovsky, G. Trowitzsch, R. Starosta, D. Lanske, Zhuoxiang Ren, M. Wadhwa, D. J. Schotanus, D. Luckey, Gy L. Bencze, Reinhard W. Schulte, L. Zehnder, J. M. You, J.B. Ye, N. Produit, S. Banerjee, Tariq Aziz, A. A. Syed, B.C. Stringfellow, F. Crijns, G. Finocchiaro, Marcel Merk, Crisostomo Sciacca, J. Perrier, François Chollet, Marco Pieri, C. Rippich, M. Vollmar, Wen-Gan Ma, Konrad Deiters, D. Wright, Alberto Aloisio, Th. Meinholz, X. W. Tang, I. Sheer, P. A. Piroué, T. Angelov, K. Lanius, G. Hu, Carlos Willmott, Speranza Falciano, H. T. Li, R. Liu, S. S. Gau, P.V.K.S. Baba, H. L. Zhuang, G. Paternoster, D.W. Schmitz, Robert Clare, Thomas Hebbeker, Paul Lecoq, R. W. Kraemer, M. Napolitano, H. S. Chen, T.J. Wenaus, Manjit Kaur, H. Akbari, and D. Antreasyan
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Physics ,Nuclear and High Energy Physics ,Particle physics ,Muon ,Electron–positron annihilation ,media_common.quotation_subject ,Hadron ,Weinberg angle ,Electron ,Asymmetry ,Spectral line ,Nuclear physics ,Mixing (physics) ,media_common - Abstract
We have measured the forward-backward asymmetry in Z 0 → b b decays using hadronic events containing muons and electrons. The data sample corresponds to 118 200 hadronic events at √s≈Mz. From a fit to the single and dilepton p and P⊥ spectra, we determine A b b =0.130 −0.042 +0.044 including the correction for B 0 − B 0 mixing.
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- 1990
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39. A measurement of mixing in Z0 decays
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B. Adeva, O. Adriani, M. Aguilar-Benitez, H. Akbari, J. Alcaraz, A. Aloisio, G. Alverson, M.G. Alviggi, Q. An, H. Anderhub, A.L. Anderson, V.P. Andreev, T. Angelov, L. Antonov, D. Antreasyan, P. Arce, A. Arefiev, T. Azemoon, T. Aziz, P.V.K.S. Baba, P. Bagnaia, J.A. Bakken, L. Baksay, R.C. Ball, S. Banerjee, J. Bao, L. Barone, A. Bay, U. Becker, J. Behrens, S. Beingessner, Gy.L. Bencze, J. Berdugo, P. Berges, B. Bertucci, B.L. Betev, A. Biland, R. Bizzarri, J.J. Blaising, P. Blömeke, B. Blumenfeld, G.J. Bobbink, M. Bocciolini, W. Böhlen, A. Böhm, T. Böhringer, B. Borgia, D. Bourilkov, M. Bourquin, D. Boutigny, B. Bouwens, J.G. Branson, I.C. Brock, F. Bruyant, C. Buisson, A. Bujak, J.D. Burger, J.P. Burq, J. Busenitz, X.D. Cai, C. Camps, M. Capell, F. Carbonara, F. Carminati, A.M. Cartacci, M. Cerrada, F. Cesaroni, Y.H. Chang, U.K. Chaturvedi, M. Chemarin, A. Chen, C. Chen, G.M. Chen, H.F. Chen, H.S. Chen, M. Chen, M.C. Chen, M.L. Chen, G. Chiefari, C.Y. Chien, F. Chollet, C. Civinini, I. Clare, R. Clare, H.O. Cohn, G. Coignet, N. Colino, V. Commichau, G. Conforto, A. Contin, F. Criins, X.Y. Cui, T.S. Dai, R. D'Alessandro, R. de Asmundis, A. Degré, K. Deiters, E. Dénes, P. Denes, F. DeNotaristefani, M. Dhina, D. DiBitonto, M. Diemoz, F. Diez-Hedo, H.R. Dimitrov, C. Dionisi, F. Dittus, R. Dolin, E. Drago, T. Driever, D. Duchesneau, P. Duinker, I. Duran, H. El Mamouni, A. Engler, F.J. Eppling, F.C. Erné, P. Extermann, R. Fabbretti, G. Faber, S. Falciano, Q. Fan, S.J. Fan, M. Fabre, O. Fackler, J. Fay, J. Fehlmann, H. Fenker, T. Ferguson, G. Fernandez, F. Ferroni, H. Fesefeldt, J. Field, F. Filthaut, G. Finocchiaro, P.H. Fisher, G. Forconi, T. Foreman, K. Freudenreich, W. Friebel, M. Fukushima, M. Gailloud, Yu. Galaktionov, E. Gallo, S.N. Ganguli, P. Garcia-Abia, S.S. Gau, S. Gentile, M. Glaubman, S. Goldfarb, Z.F. Gong, E. Gonzalez, A. Gordeev, P. Göttlicher, D. Goujon, G. Gratta, C. Grinnell, M. Gruenewald, M. Guanziroli, A. Gurtu, H.R. Gustafson, L.J. Gutay, H. Haan, S. Hancke, K. Hangarter, M. Harris, A. Hasan, D. Hauschildt, C.F. He, T. Hebbeker, M. Hebert, G. Herten, U. Herten, A. Hervé, K. Hilgers, H. Hofer, H. Hoorani, L.S. Hsu, G. Hu, G.Q. Hu, B. Ille, M.M. Ilyas, V. Innocente, E. Isiksal, E. Jagel, B.N. Jin, L.W. Jones, R.A. Khan, Yu. Kamyshkov, Y. Karyotakis, M. Kaur, S. Khokhar, V. Khoze, M.-N. Kienzle, W. Kinnison, D. Kirkby, W. Kittel, A. Klimentov, A.C. König, O. Kornadt, V. Koutsenko, R.W. Kraemer, T. Kramer, V.R. Krastev, W. Krenz, J. Krizmanic, A. Kuhn, K.S. Kumar, V. Kumar, A. Kunin, A. van Laak, V. Lalieu, G. Landi, K. Lanius, D. Lanske, S. Lanzano, P. Lebrun, P. Lecomte, P. Lecoq, P. Le Coultre, D. Lee, I. Leedom, J.M. Le Goff, L. Leistam, R. Leiste, M. Lenti, J. Lettry, P.M. Levchenko, X. Leytens, C. Li, H.T. Li, J.F. Li, L. Li, P.J. Li, Q. Li, X.G. Li, J.Y. Liao, Z.Y. Lin, F.L. Linde, D. Linnhofer, R. Liu, Y. Liu, W. Lohmann, S. Lökös, E. Longo, Y.S. Lu, J.M. Lubbers, K. Lübelsmeyer, C. Luci, D. Luckey, L. Ludovici, X. Lue, L. Luminari, W.G. Ma, M. MacDermott, R. Magahiz, M. Maire, P.K. Malhotra, R. Malik, A. Malinin, C. Maña, D.N. Mao, Y.F. Mao, M. Maolinbay, P. Marchesini, A. Marchionni, J.P. Martin, L. Martinez, F. Marzano, G.G.G. Massaro, T. Matsuda, K. Mazumdar, P. McBride, T. McMahon, D. McNally, Th. Meinholz, M. Merk, L. Merola, M. Meschini, W.J. Metzger, Y. Mi, M. Micke, U. Micke, G.B. Mills, Y. Mir, G. Mirabelli, J. Mnich, M. Möller, B. Monteleoni, G. Morand, R. Morand, S. Morganti, V. Morgunov, R. Mount, E. Nagy, M. Napolitano, H. Newman, M.A. Niaz, L. Niessen, D. Pandoulas, F. Plasil, G. Passaleva, G. Paternoster, S. Patricelli, Y.J. Pei, D. Perret-Gallix, J. Perrier, A. Pevsner, M. Pieri, P.A. Piroué, V. Plyaskin, M. Pohl, V. Pojidaev, N. Produit, J.M. Qian, K.N. Qureshi, R. Raghavan, G. Rahal-Callot, P. Razis, K. Read, D. Ren, Z. Ren, S. Reucroft, O. Rind, C. Rippich, H.A. Rizvi, B.P. Roe, M. Röhner, S. Röhner, U. Roeser, Th. Rombach, L. Romero, J. Rose, S. Rosier-Lees, R. Rosmalen, Ph. Rosselet, J.A. Rubio, W. Ruckstuhl, H. Rykaczewski, M. Sachwitz, J. Salicio, J.M. Salicio, G. Sanders, G. Sartorelli, G. Sauvage, A. Savin, V. Schegelsky, D. Schmitz, P. Schmitz, M. Schneegans, M. Schöntag, H. Schopper, D.J. Schotanus, H.J. Schreiber, R. Schulte, S. Schulte, K. Schultze, J. Schütte, J. Schwenke, G. Schwering, C. Sciacca, I. Scott, R. Sehgal, P.G. Seiler, J.C. Sens, I. Sheer, V. Shevchenko, S. Shevchenko, X.R. Shi, K. Shmakov, V. Shoutko, E. Shumilov, N. Smirnov, A. Sopczak, C. Spartiotis, T. Spickermann, B. Spiess, P. Spillantini, R. Starosta, M. Steuer, D.P. Stickland, W. Stoeffl, B. Stöhr, H. Stone, K. Strauch, B.C. Stringfellow, K. Sudhakar, G. Sultanov, R.L. Sumner, L.Z. Sun, H. Suter, R.B. Sutton, J.D. Swain, A.A. Syed, A.A. Tang, E. Tarkovsky, L. Taylor, E. Thomas, C. Timmermans, Samuel C.C. Ting, S.M. Ting, Y.P. Tong, F. Tonisch, M. Tonutti, S.C. Tonwar, J. Tòth, G. Trowitzsch, K.L. Tung, J. Ulbricht, L. Urbàn, U. Uwer, E. Valente, R.T. Van de Walle, H. van der Graaf, I. Vetlitsky, G. Viertel, P. Vikas, U. Vikas, M. Vivargent, H. Vogel, H. Vogt, M. Vollmar, G. Von Dardel, I. Vorobiev, A.A. Vorobyov, An.A. Vorobyov, L. Vuilleumier, M. Wadhwa, W. Wallraff, C.R. Wang, G.H. Wang, J.H. Wang, Q.F. Wang, X.L. Wang, Y.F. Wang, Z. Wang, Z.M. Wang, J. Weber, R. Weill, T.J. Wenaus, J. Wenninger, M. White, R. Wilhelm, C. Willmott, F. Wittgenstein, D. Wright, R.J. Wu, S.L. Wu, S.X. Wu, Y.G. Wu, B. Wysłouch, Y.D. Xu, Z.Z. Xu, Z.L. Xue, D.S. Yan, B.Z. Yang, C.G. Yang, G. Yang, K.S. Yang, Q.Y. Yang, Z.Q. Yang, C.H. Ye, J.B. Ye, Q. Ye, S.C. Yeh, Z.W. Yin, J.M. You, M. Yzerman, C. Zaccardelli, L. Zehnder, M. Zeng, Y. Zeng, D. Zhang, D.H. Zhang, Z.P. Zhang, J.F. Zhou, R.Y. Zhu, H.L. Zhuang, and A. Zichichi
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Physics ,Nuclear physics ,Nuclear and High Energy Physics ,Particle physics ,010308 nuclear & particles physics ,Electron–positron annihilation ,0103 physical sciences ,Hadron ,010306 general physics ,01 natural sciences ,Spectral line ,Mixing (physics) - Abstract
We have observed B0-B0 mixing in Z0→bb decays using hadronic events containing dileptons. The data sample corresponds to 118 200 hadron events at √s≈Mz. From a fit to the dilepton p and p⊥ spectra, we determine the mixing parameter to be χB=0.178-0.040 +0.049. © 1990.
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- 1990
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40. Determination of αs from jet multiplicities measured on the Z0 resonance
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L. Li, R.J. Wu, A. Sopczak, D. Duchesneau, J.M. Qian, G. Landi, W. Lange, Philip Kaaret, W. Ruckstuhl, D. P. Stickland, Y. Mir, J.F. Li, D. Pandoulas, T. McMahon, C. H. Ye, P. Vikas, A. Gordeev, H. Suter, Y.F. Wang, H. Anderhub, M. Schneegans, T. Spickermann, S. Kwan, Bernard Ille, Sc Yeh, M. Guanziroli, G. Fernandez, R. de Asmundis, D. Antreasyan, K. Sudhakar, M. J. Glaubman, R. Dolin, E. Dénes, H. El Mamouni, R. Sehgal, C. Zabounidis, P. Arce, R. Magahiz, D. Goujon, J. D. Swain, T.J. Wenaus, Sw. Banerjee, A. Leike, Manjit Kaur, P. McBride, R. Malik, Valentin V. Khoze, Vincenzo Innocente, Bz Yang, Jj Blaising, X. Leytens, Dimitri Bourilkov, L. Antonov, T. Kramer, G. Herten, Valery Schegelsky, Antonino Zichichi, J.M. Lubbers, Y. H. Chang, Ph Fisher, An.A. Vorobyov, George Alverson, B. Borgia, T. Matsuda, J. P. Martin, M. Bourquin, H. Rykaczewski, H. Akbari, Hafeez R. Hoorani, G. Faber, K. Strauch, Y. Karyotakis, W.G. Ma, S. X. Wu, Vineet Kumar, J. Ulbricht, E. Nagy, M. Vivargent, Christine Buisson, C. Goy, J. Krizmanic, E. Shumilov, A. Marchionni, J. M. Salicio, U. Micke, A. L. Anderson, A. Böhm, O. Adriani, A. van Laak, D. Linnhofer, J. Zoll, Z. M. Wang, R. Mount, L.S. Hsu, M. Schöntag, W. Böhlen, V. Shoutko, S. Rosier-Lees, I. Vorobiev, V.R. Krastev, C. Dionisi, E. Gonzalez, Pablo Garcia-Abia, Alain Hervé, M. G. Alviggi, Ying Wu, M. Fukushima, H. Haan, A. Kuhn, Zhuoxiang Ren, L. Urbàn, D. DiBitonto, M. Wadhwa, J. F. Zhou, A. Klimentov, J. A. Bakken, Lamberto Luminari, D. J. Schotanus, A. Bay, H. Nowak, Jean Fay, M. Dhina, S. Lanzano, Bernardo Adeva, F. Ferroni, V. Koutsenko, Y. Zeng, Jozsef Toth, Carlo Civinini, M. Maolinbay, J. Berdugo, M. Tonutti, X.R. Shi, J. M. You, J. Lettry, Claudio Luci, P. Le Coultre, X.G. Li, N. Produit, M. Aguilar-Benitez, Yu. Kamyshkov, J. Fehlmann, M. Steuer, G. Forconi, B. Spiess, I. Duran, I. Clare, J. Busenitz, Herwig Schopper, Elisabetta Gallo, K. Hangarter, I. Vetlitsky, M. White, D.N. Mao, Petr Levchenko, J.M. Thenard, A.M. Cartacci, B. Monteleoni, Egidio Longo, H.R. Dimitrov, Mw Gruenewald, R. Starosta, C. Souyri, S. Röhner, Chenliang Wang, F. Wittgenstein, J. Weber, P. Göttlicher, C-Q. Li, G. A. Yang, G. Sauvage, Pierre Lecomte, G. Sartorelli, M. Möller, L. Ludovici, P. Schmitz, W. Kittel, D. Luckey, Gy L. Bencze, M. Hebert, Panos A Razis, E. Drago, L. Niessen, Reinhard W. Schulte, R.C. Ball, J. D. Burger, H. Vogt, S. Reucroft, Sau Lan Wu, Z.Y. Lin, G. Paternoster, T. Driever, D.W. Schmitz, C. G. Yang, J. M. Le Goff, Charles Timmermans, D. Boutigny, V. Plyaskin, C. Camps, D. Perret-Gallix, R. Bizzarri, S. Hancke, Ian Brock, Adrian Biland, G. Rahal-Callot, K. Freudenreich, H. Fenker, P. Blömeke, M. Harris, J.G. Branson, S. Shevchenko, M. Fabre, Z.F. Gong, A. Malinin, V. Lalieu, F. DeNotaristefani, K. N. Qureshi, H.F. Chen, M. M. Ilyas, K. S. Kumar, Luciano Romero, Qian Wang, Harvey B Newman, K. Hilgers, G.B. Mills, K.D. Shmakov, S. J. Fan, B. L. Betev, M. Micke, Georgi Sultanov, J. A. Rubio, L. Leistam, R. A. Khan, Robert Clare, R. Fabbretti, Ph. Rosselet, S. Nowak, M. Sachwitz, C. F. He, Samuel C.C. Ting, D. Kaplan, K. Schultze, A. Heavey, E. Tarkovsky, Qiang Li, Steven Goldfarb, T. Riemann, Z.Q. Yang, P.G. Seiler, F. Diez-Hedo, V. P. Andreev, G.J. Bobbink, S. Beingessner, Peter Denes, A. Pevsner, G. Morand, A. Engler, D. Lanske, M. Chemarin, R.B. Sutton, D.H. Zhang, M. Capell, W. Lohmann, G. M. Chen, C. Spartiotis, M. MacDermott, Thomas Hebbeker, Paul Lecoq, R. W. Kraemer, M. Gailloud, Paolo Bagnaia, M. Napolitano, Barry Blumenfeld, J. Mnich, E. Jagel, Mingshui Chen, I. Sheer, Helmut Vogel, U. Herten, H. S. Fesefeldt, P. Berges, G. Mirabelli, E. Thomas, Speranza Falciano, J.H. Wang, P. K. Malhotra, H. A. Rizvi, R. Morand, Z. L. Xue, M. A. Niaz, R. Rosmalen, W. Wallraff, X. L. Wang, Guofan Hu, K. Lübelsmeyer, Piero Spillantini, Y. Mi, M. Maire, H. van der Graaf, P. Duinker, G. Chiefari, J.P. Burq, Howard A. Stone, T.S. Dai, Yanwen Liu, D. Ren, A. Arefiev, H. S. Chen, H.J. Schreiber, Q. Fan, D. Zhang, W. J. Metzger, P. Extermann, J. Bao, I. Leedom, H. Hofer, K. L. Tung, G.G.G. Massaro, Z. W. Yin, U. Vikas, A. Contin, Aa Vorobyov, A. Kunin, S. C. Tonwar, F. Carbonara, S. N. Ganguli, L. Martinez, J.C. Sens, A. Degré, F. L. Linde, R. Raghavan, Thomas Ferguson, A. C. König, Y.P. Tong, Laurent Vuilleumier, G. Schwering, Kajari Mazumdar, R. Leiste, E. Isiksal, L. Montanet, S. Khokhar, M. Vollmar, F. Marzano, G. Coignet, W. Krenz, G. H. Wang, Marco Meschini, A. A. Syed, J. Wenninger, V. Pojidaev, Nikita Smirnov, Xd Cai, Zm Wang, D. Kirkby, B. P. Roe, Qi An, D. Wright, B.C. Stringfellow, F. Crijns, F. Cesaroni, J. Y. Liao, S. Lökös, K.S. Yang, G. Finocchiaro, J. Schütte, A. Bujak, Oliver Kornadt, M. Pohl, T. Foreman, Y.J. Pei, Marcel Merk, Th. Rombach, J. Perrier, F. Bruyant, V. Morgunov, B. Bertucci, Nicanor Colino, F. Tonisch, Simonetta Gentile, Kenneth Francis Read, G. Conforto, A. Savin, T. Angelov, M.L. Chen, K. Lanius, M. Gettner, W. Friebel, G. Hu, C. Maña, Marcella Diemoz, X. Lue, U. K. Chaturvedi, G. Trowitzsch, Carlos Willmott, Y. S. Lu, G. Von Dardel, T. Böhringer, P. Marchesini, Jérôme Rose, R. Wilhelm, J. H. Field, Ming Zeng, H. T. Li, M. Röhner, Ren-Yuan Zhu, Luciano Barone, F.C. Erné, Q.Y. Yang, A. Gurtu, V. Commichau, R. Liu, M. Bocciolini, Y.F. Mao, R. T. Van de Walle, A. Hasan, J. Behrens, E. Valente, R. Weill, P. J. Li, D. McNally, G. Viertel, P. Lebrun, Fridolin Dittus, S. S. Gau, P.V.K.S. Baba, S. Morganti, J. Schwenke, X. Y. Cui, S.Y. Zhang, U. Uwer, A. Chen, J. Salicio, Z.Z. Xu, Yu. Galaktionov, J. Alcaraz, Tariq Aziz, Cheng Chen, B. Stöhr, C. Zaccardelli, Raffaello D'Alessandro, C. Grinnell, Leonardo Merola, W. Walk, T. Azemoon, Marcos Cerrada, Crisostomo Sciacca, Marco Pieri, C. Rippich, B. N. Jin, L. Zehnder, Zp Zhang, Konrad Deiters, Alberto Aloisio, A. Ricker, A. Grimes, W.D. Nowak, Th. Meinholz, X. W. Tang, P. A. Piroué, R. L. Summer, L. Baksay, V.G. Shevchenko, G. Gratta, Boleslaw Wyslouch, C.Y. Chien, L. J. Gutay, U. Becker, F. J. Eppling, L. W. Jones, D. S. Yan, S. M. Ting, Federico Carminati, S. Patricelli, Q. Ye, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), CMS, Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), L3, and IHEF (IoP, FNWI)
- Subjects
Physics ,Nuclear and High Energy Physics ,Particle physics ,010308 nuclear & particles physics ,Emerging technologies ,media_common.quotation_subject ,Field (Bourdieu) ,Skill ,Context (language use) ,Space (commercial competition) ,Investment (macroeconomics) ,01 natural sciences ,Celling act ,Microeconomics ,Networking ,Local ,Information ,Phenomenon ,0103 physical sciences ,Mediation ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,010306 general physics ,Empowerment ,Particle Physics - Experiment ,media_common - Abstract
Whatever the field, major change implies as much as deep transformation of thinking i.e to put in network new skills in particular, those made available by the availability of new technologies. In this context, only one individual cannot join together all necessary skills. It becomes clear that the goal of space valorization cannot be considered without relational investment between the partners and their accumulated background. The local empowerment concerns a collective phenomenon of acquisition and development of skills rests on an learning way appropriate to the potential of the territory to form or promote. The local mediation sets for objective the creation of relations between pre-existent skills and their transfer between the actors, individuals or groups, private or public. But the capacity of the territory to solve these problems will depend closely on the richness of the network and co-operations which it shelters or it will suggest.
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- 1990
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- View/download PDF
41. The construction of the L3 experiment
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B. Adeva, M. Aguilar-Benitez, H. Akbari, J. Alcaraz, A. Aloisio, J. Alvarez-Taviel, G. Alverson, M.G. Alviggi, H. Anderhub, A.L. Anderson, A.M. Angelov, T.H. Angelov, G.H. Antchev, L. Antonov, D. Antreasyan, A. Arefiev, I.H. Atanasov, B. Auroy, R. Ayad, O.L. Ayranov, T. Azemoon, T. Aziz, U. Bachmann, P. Bähler, J.A. Bakken, L. Baksay, H. Baldinger, R.C. Ball, J. Ballansat, S. Banerjee, J. Bao, G. Barbier, L. Barone, G. Basti, A. Bay, F. Beauvais, U. Becker, R. Beissel, S. Bendig, P. Béné, J. Berdugo, P. Berges, M. Berthet, Y. Bertsch, B.L. Betev, A. Biland, A. Bischoff, M. Bischops, R. Bizzarri, J.J. Blaising, M. Blanc, P. Blömeke, B. Blumenfeld, G.J. Bobbink, M. Bocciolini, K.D. Boffin, W. Bohlen, A. Böhm, T. Böhringer, H. Bonnefon, C. Bopp, B. Borgia, K. Bosseler, J.F. Bottolier, M. Bourquin, D. Boutigny, P. Bowditch, J.G. Branson, D. Braun, I.C. Brock, F. Bruyant, M. Buchholz, B. Bücken, W. Bulgeroni, R. Burel, J.D. Burger, C. Burgos, J.P. Burq, L. Caiazzo, M. Caillat, B. Camberlin, D. Campana, C. Camps, V. Canale, M. Capell, F. Carbonara, F. Carminati, A.M. Cartacci, M. Cerrada, F. Cesaroni, Y.H. Chang, J.W. Chapman, M. Chemarin, A. Chen, C. Chen, H.F. Chen, H.S. Chen, M. Chen, M.L. Chen, S.R. Chendvankar, G. Chevenier, S. Chidzik, G. Chiefari, C.Y. Chien, F. Chollet, M. Chumakov, C. Civinini, I. Clare, R. Clare, G. Coignet, N. Colino, V. Commichau, G. Conforto, P. Cristofori, F. Crijns, X.Y. Cui, T.S. Dai, R. D'Alessandro, M. Daniel, X. De Bouard, B. Debye, G. Decreuse, A. Degré, K. Deiters, E. Dénes, P. Denes, F. DeNotaristefani, M. Deutschmann, M. Dhina, B. Didierjean, M. Diemoz, M. Dietrich, H.A. Dimitrov, C. Dionisi, F. Dittus, M. Dohmen, R. Dolin, J.F. Donahue, A. Donat, E. Drago, K.H. Dreger, T. Driever, G. Dromby, P. Duinker, I. Duran, M. Elkacimi, H. Elmamouni, A. Engler, F.J. Eppling, F.C. Erné, I. Erne, H. Esser, P. Extermann, R. Fabbretti, G. Faber, S. Falciano, T. Falk, S.J. Fan, M. Favre, J. Fay, S. Fehér, J. Fehlmann, M. Feldmann, H. Fenker, T. Ferguson, M. Fernandez, F. Ferroni, H. Fesefeldt, J. Field, J.M. Figarola, C.F. Figueroa, G.A. Filipov, B. Foligné, G. Forconi, T. Foreman, V. Franzke, W. Frei, K. Freudenreich, W. Friebel, M. Fukushima, G. Gaillard, M. Gailloud, Yu. Galaktionov, E. Gallo, S.N. Ganguli, D. Garelick, S.S. Gau, G. Gavrilov, E. Gennari, S. Gentile, M. Gettner, C. Girard, M. Glaubman, S. Goldfarb, Z.F. Gong, E. Gonzalez, A. Gordeev, Yu. Gorodkov, P. Göttlicher, C. Goy, M. Goyot, G. Gratta, A. Grimes, C. Grinnell, M. Gruenewald, M. Guanziroli, S. Guerra, C. Guillon, A. Gurtu, D. Güsewell, H.R. Gustafson, M. Haensli, M. Haan, C. Haller, T. Hamacher, H. Hammers, K. Hangarter, S. Hancke, M. Harris, D. Harting, F.G. Hartjes, C.F. He, A. Heavey, T. Hebbeker, M. Hebert, R. Heller, Ch. Helmrath, J. Herrmann, G. Herten, U. Herten, A. Hervé, H. Hesser, G. Hilgers, K. Hilgers, H. Hofer, M. Hofer, T. Hofer, F. Hoffmann, U. Horisberger, I. Horvath, L.S. Hsu, G.Q. Hu, B. Ille, M.M. Ilyas, G. Improta, V. Innocente, E. Isiksal, E. Jagel, B.N. Jin, L.W. Jones, M. Jongmanns, H. Jung, P. Kaaret, O. Kaelin, W. Kaestli, Yu. Kamyshkov, D. Kaplan, W. Karpinski, Y. Karyotakis, W. Kertzer, V. Khoze, G. Kirchhoff, W. Kittel, A. Klimentov, P.F. Klok, M. Kollek, M. Koller, A.C. König, O. Kornadt, V. Koutsenko, R.W. Kraemer, V.R. Krastev, A. Kratel, W. Krenz, A. Kuhn, A. Kunin, S. Kwan, J. Lacotte, M. LaMarra, G. Landi, W. Lange, K. Lanius, D. Lanske, S. Lanzano, J.M. Le Goff, J.C. Le Marec, D. Lea, M. Lebeau, P. Lebrun, P. Lecomte, J. Lecoq, P. Le Coultre, I. Leedom, A. Léger, F. Lehmann, L. Leistam, R. Leiste, E. Lejeune, B. Leoni, J. Lettry, X. Leytens, C. Li, H.T. Li, L. Li, P.J. Li, X.G. Li, J.Y. Liao, Z.Y. Lin, F.L. Linde, D. Linnhöfer, E. Loftin, W. Lohmann, S. Lökös, E. Longo, Y.S. Lu, J.M. Lubbers, K. Lübelsmeyer, C. Luci, D. Luckey, X. Lue, L. Luminari, G. Lunadei, F. Lürken, H. Ma, W.G. Ma, M. MacDermott, N. Madjar, R. Magahiz, M. Maire, P.K. Malhotra, A. Malinin, C. Mana, F. Manna, G. Manto, Y.F. Mao, M. Maolinbay, P. Marchesini, A. Marchionni, M. Markwalder, P. Marsden, J.P. Martin, L. Martinez, H.U. Martyn, F. Marzano, V. Marzullo, F. Masciocchi, G.G.G. Massaro, L. Massonnet, T. Matsuda, G. Maurelli, K. Mazumdar, P. McBride, G. Medici, H. Meier, Th. Meinholz, M. Merk, R. Mermod, L. Merola, M. Meschini, W.J. Metzger, M. Micke, U. Micke, G.B. Mills, J. Mnich, M. Moeller, A. Molinero, L. Montanet, B. Monteleoni, R. Montino, G. Morand, R. Morand, S. Morganti, V. Morgunov, R. Mount, M. Moynot, P. Mugnier, W. Nägeli, E. Nagy, M. Napolitano, S. Neboux, H. Newman, Ch. Neyer, K. Nguyen, L. Niessen, A. Nikitin, W.D. Nowak, M. Okle, P. Olmos, J. Onvlee, D. Osborne, J. Ossmann, D. Pandoulas, H. Paprotny, A. Parmentola, G. Passeggio, G. Paternoster, S. Patricelli, Y.J. Pei, Y. Peng, D. Perret-Gallix, J. Perrier, E. Perrin, G. Perrot, P. Petitpas, P. Petschner, A. Pevsner, J. Pier-Amory, M. Pieri, G. Pierschel, P.A. Piroué, V. Plyaskin, M. Pohl, V. Pojidaev, C.L.A. Pols, T. Ponomareff, J. Potyka, N. Produit, P. Prokofiev, F. Pruja, G. Pütz, J.M. Qian, R. Raghavan, P. Razis, K. Read, P. Reddick, K. Reissmann, D. Ren, S. Reucroft, D. Rey, M. Reynaud, X. Ricadonna, J-P. Richeux, C. Rippich, U. Rinsche, R. Rocco, S. Rodriguez, B.P. Roe, M. Röhner, S. Röhner, Th. Rombach, L. Romero, J. Rose, U. Röser, S. Rosier-Lees, J.A. Rubio, W. Ruckstuhl, H. Rykaczewski, P. Sahuc, J. Salicio, S. Saran, G. Sauvage, A. Savin, T. Schaad, B. Schafheitle, V. Schegelsky, A. Schetkovsky, F. Schild, R. Schillsott, P. Schmitt, D. Schmitz, P. Schmitz, M. Schneegans, M. Schneider, E. Schneevogt, M. Schöntag, D.J. Schotanus, H. Schuijlenburg, R. Schulte, A.Schultz Von Dratzig, K. Schultze, J. Schwenke, G. Schwering, C. Sciacca, P.G. Seiler, J.C. Sens, I. Sheer, V. Shevchenko, S. Shevchenko, X.R. Shi, K. Shmakov, V. Shoutko, E. Shumilov, R. Siedling, N. Smirnov, V. Souvorov, C. Souyri, I. Spangler, T. Spickermann, B. Spiess, P. Spillantini, R. Starosta, M. Steuer, D.P. Stickland, B. Stöhr, H. Stone, K. Strauch, K. Sudhakar, R.L. Sumner, H. Suter, R.B. Sutton, H. Szczesny, J. Tang, X.W. Tang, E. Tarkovsky, A. Tavenrath, V. Tchudakov, J.M. Thenard, E. Thomas, T. Thon, H. Thuerig, M. Thulen, C. Timmermans, Samuel C.C. Ting, S.M. Ting, F. Tonisch, Y.P. Tong, M. Tonutti, S.C. Tonwar, J. Tòth, W. Toth, G. Trowitzsch, K.L. Tung, J. Ulbricht, L. Urbàn, E. Valente, R.T. van de Walle, H. van der Graaf, V. Vanzanella, M. Vergain, I. Vetlitsky, H. Vey, G. Viertel, M. Vivargent, H. Vogel, S. Volkov, M. Vollmar, H.P. von Gunten, I. Vorobiev, A. Vorobyov, L. Vuilleumier, S. Waldmeier, W. Walk, W. Wallraff, C.Y. Wang, G.H. Wang, J.H. Wang, Q.F. Wang, X.L. Wang, Y.F. Wang, Z.M. Wang, D. Wassenberg, D. Wegmann, R. Weill, T.J. Wenaus, P. Wenger, J. Wenninger, M. White, R. Wilhelm, C. Willmott, H.P. Wirth, F. Wittgenstein, R.J. Wu, S.X. Wu, Y.G. Wu, B. Wyslouch, F.Y. Xi, Z.Z. Xu, Z.L. Xue, D.S. Yan, K.D. Yanev, B.Z. Yang, C.G. Yang, K.S. Yang, Q.Y. Yang, Z.Q. Yang, C.H. Ye, S.C. Yeh, Z.W. Yin, C. Zabounidis, L. Zehnder, Y. Zeng, D.H. Zhang, S.Y. Zhang, Z.P. Zhang, B. Zhou, J.F. Zhou, Z.P. Zhou, R.Y. Zhu, A. Zichichi, M. Zofka, J. Zoll, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), CMS, Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), L3, B., Adeva, Aloisio, Alberto, Alviggi, Mariagrazia, Canale, Vincenzo, Chiefari, Giovanni, Merola, Leonardo, Napolitano, Marco, Paternoster, Giovanni, Patricelli, Sergio, and Sciacca, Crisostomo
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Physics ,Nuclear and High Energy Physics ,Wire chamber ,Particle physics ,Muon ,Photon ,Physics::Instrumentation and Detectors ,010308 nuclear & particles physics ,Detector ,Electron ,01 natural sciences ,Particle detector ,Nuclear physics ,0103 physical sciences ,Large Electron–Positron Collider ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,Measuring instrument ,High Energy Physics::Experiment ,010306 general physics ,Instrumentation - Abstract
The L3 experiment is one of the six large detectors designed for the new generation of electron-positron accelerators. It is the only detector that concentrates its efforts on limited goals of measuring electrons, muons and photons. By not attempting to identify hadrons, L3 has been able to provide an order of magnitude better resolution for electrons, muons and photons. Vertices and hadron jets are also studied. The construction of L3 has involved much state of the art technology in new principles of vertex detection and in new crystals for large scale electromagnetic shower detection and ultraprecise muon detection. This paper presents a summary of the construction of L3.
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- 1990
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- View/download PDF
42. A search for heavy charged and neutral leptons from Z0 decays
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Dimitri Bourilkov, R.J. Wu, M. MacDermott, Raffaello D'Alessandro, M.L. Chen, P.J. Li, C. Grinnell, M. A. Niaz, Leonardo Merola, A. Gordeev, C.H. Ye, R. Starosta, V. Commichau, G.Q. Hu, D. Pandoulas, T. Azemoon, P. Extermann, B. Ille, Marcella Diemoz, C. Buisson, A. Böhm, I. Leedom, H. Hofer, K. L. Tung, M. Möller, B. P. Roe, G. Von Dardel, A. Degré, T. Böhringer, G. Morand, J. Behrens, H. Anderhub, C.R. Wang, Q.Y. Yang, Z.W. Yin, U. Uwer, Fridolin Dittus, Z.Y. Lin, O. Kornadt, M. Fukushima, J.C. Sens, R. Raghavan, Harvey B Newman, J. Lettry, Claudio Luci, Elisabetta Gallo, C.F. He, Egidio Longo, S. Shevchenko, A. C. König, Laurent Vuilleumier, E. Isiksal, J.P. Martin, A. Chen, F. Ferroni, S. Beingessner, D. DiBitonto, A. Bujak, R. L. Sumner, F. Tonisch, G. H. Wang, W. Lohmann, W. Wallraff, D. Perret-Gallix, M. Guanziroli, J. Wenninger, J.P. Burq, Ph. Rosselet, M. Steuer, Zm Wang, G. Forconi, B. Stöhr, C. Zaccardelli, M. Pohl, M. M. Ilyas, R. Leiste, X.G. Li, Yu. Kamyshkov, D. Boutigny, P. K. Malhotra, H. A. Rizvi, H.J. Schreiber, L. J. Gutay, U. Roeser, R. Fabbretti, R. de Asmundis, J. Weber, L.S. Hsu, J. Salicio, Tariq Aziz, Marco Meschini, J. Fay, K. Schultze, Yu. Galaktionov, H. van der Graaf, M. Zeng, D.N. Mao, S. Reucroft, U. Becker, M. Schöntag, Mw Gruenewald, H. Haan, Ren-Yuan Zhu, Luciano Barone, R. Liu, R.C. Ball, Adrian Biland, V. Lalieu, D.S. Yan, H. Fenker, R. T. Van de Walle, G.B. Mills, K.S. Kumar, R. Weill, M. Gailloud, A.M. Cartacci, D. Kirkby, E. Thomas, H.T. Li, T. Spickermann, G. Herten, L. Urbàn, G. Landi, M. J. Glaubman, F.C. Erné, C. G. Yang, I. Scott, L. Li, G. Faber, H.F. Chen, J. Alcaraz, A. Gurtu, Aa Vorobyov, Y.J. Pei, M. Chemarin, J.Y. Liao, R.A. Khan, F. J. Eppling, L. W. Jones, A. Kunin, E. Valente, E. Jagel, Y. Zeng, P. Vikas, V. Shevchenko, T. Foreman, H.R. Dimitrov, M. Lenti, P. Arce, M. Bocciolini, K. Freudenreich, P.V.K.S. Baba, G. Sartorelli, H. L. Zhuang, D. Goujon, D. McNally, S. M. Ting, J.M. You, Mingshui Chen, A. L. Anderson, D. Duchesneau, M. Maire, E. Nagy, A. Hasan, M. Cerrada, Z. Ren, C. Chen, Vincenzo Innocente, N. Smirnov, F. Marzano, I. Vetlitsky, D. Lanske, B. Bertucci, W. J. Metzger, G. Viertel, J.M. Qian, C. Li, I. Vorobiev, Z.M. Wang, K. N. Qureshi, Y. D. Xu, P. Blömeke, P. Lebrun, X. Leytens, V. Shoutko, Crisostomo Sciacca, D. Zhang, Marco Pieri, A. Engler, Jd Burger, K. Sudhakar, C. Rippich, S. Morganti, G. Rahal-Callot, G.G.G. Massaro, Nicanor Colino, H. El Mamouni, J. G. Branson, M. Capell, J. A. Bakken, Samuel C.C. Ting, G. Fernandez, X. Lue, K.S. Yang, L. Romero, Federico Carminati, P. McBride, U. Micke, K. Lübelsmeyer, Z.Z. Xu, X. Y. Cui, J. Tòth, S. Röhner, Y. Mi, H. R. Gustafson, Y. S. Lu, S. N. Ganguli, J. Schwenke, Steven Goldfarb, F. Carbonara, M. Tonutti, J. M. Salicio, R.B. Sutton, G. Passaleva, D.H. Zhang, S. Lökös, M.C. Chen, U.K. Chaturvedi, Konrad Deiters, G. Sauvage, A. Malinin, Th. Rombach, R. Wilhelm, J. H. Field, W. Krenz, G. Schwering, An.A. Vorobyov, T. Matsuda, Alberto Aloisio, S. C. Tonwar, L. Martinez, L. Niessen, S. Patricelli, F. L. Linde, W. Böhlen, Simonetta Gentile, K. Hilgers, M. Schneegans, Jj Blaising, O. Adriani, Thomas Ferguson, T. Kramer, Kenneth Francis Read, R. Morand, Q. Ye, V. Schegelsky, G. Conforto, L. Z. Sun, V. Pojidaev, Th. Meinholz, Lucas Taylor, K. Hangarter, S.J. Fan, Sc Yeh, A. Klimentov, S.S. Gau, J.F. Li, T. Angelov, C. Maña, H. Vogt, X. W. Tang, K. Lanius, I. Sheer, G. Yang, Jian Wang, P. A. Piroué, J. Rose, C. Willmott, Mariagrazia Alviggi, D. Linnhofer, W. Friebel, M. Bourquin, L. Baksay, Speranza Falciano, G. Coignet, B. N. Jin, K. Strauch, P. Duinker, P.G. Seiler, F. Diez-Hedo, Peter Denes, V. Morgunov, Bolek Wyslouch, Qian Wang, X.L. Wang, J. Bao, Paolo Bagnaia, G. Gratta, R. Mount, V. Koutsenko, P. Schmitz, B. Borgia, L. Zehnder, J.B. Ye, C.Y. Chien, S. Banerjee, Zp Zhang, A. van Laak, W. Ruckstuhl, D. P. Stickland, H. Suter, Y.F. Wang, Y. Mir, S. Rosier-Lees, R. Malik, A. Pevsner, Barry Blumenfeld, Antonino Zichichi, J.M. Lubbers, U. Herten, Ph Fisher, H. Rykaczewski, Q. Z. Li, Y. Karyotakis, X.R. Shi, L. Antonov, I. Clare, J. Busenitz, S. Schulte, V. Kumar, J. Krizmanic, A. Marchionni, Q. An, M. Dhina, M. Micke, V. Plyaskin, T. Hebbeker, D. J. Schotanus, P. Levchenko, V.R. Krastev, E. Gonzalez, M. Röhner, N. Produit, J. Ulbricht, C. Spartiotis, S. Lanzano, Bernardo Adeva, A. A. Syed, Howard A. Stone, T.S. Dai, Q. Fan, B.C. Stringfellow, B. Spiess, V. Khoze, F. Crijns, R. Rosmalen, G. Finocchiaro, Marcel Merk, B.Z. Yang, J. Perrier, R. Bizzarri, Ian Brock, F. DeNotaristefani, L. Leistam, M. Kaur, G. Hu, B. Monteleoni, G. Chiefari, W. Kittel, P. Berges, R. Sehgal, W.G. Ma, M. Vivargent, C. Dionisi, Alain Hervé, A. Bay, A. Arefiev, Carlo Civinini, M. Maolinbay, M. Aguilar-Benitez, I. Duran, Herwig Schopper, M. White, F. Wittgenstein, L. Ludovici, E. Drago, Sau Lan Wu, T. Driever, R. Schulte, A. Kuhn, M. Harris, J.F. Zhou, S. Hancke, Y. H. Chang, George Alverson, Z.Q. Yang, G. Trowitzsch, Helmut Vogel, Kajari Mazumdar, S. Khokhar, E. Dénes, Xd Cai, F. Cesaroni, D. Ren, H. Fesefeldt, U. Vikas, A. Contin, J. Mnich, M. Hebert, Panos A Razis, J. Schütte, M. Sachwitz, F. Bruyant, R. Dolin, P. Garcia-Abia, J. M. Le Goff, K. Shmakov, Z.F. Gong, M. Wadhwa, J. A. Rubio, T. McMahon, E. Shumilov, R. Magahiz, J. D. Swain, A. Savin, D. Wright, C. Camps, P. Le Coultre, D. Schmitz, D. Antreasyan, G. Paternoster, G. Mirabelli, P. Marchesini, Robert Clare, D. Luckey, Gy L. Bencze, Y.G. Wu, Paul Lecoq, R. W. Kraemer, M. Napolitano, Piero Spillantini, H. S. Chen, S.X. Wu, Y.P. Tong, E. Tarkovsky, A. Sopczak, T.J. Wenaus, H. Akbari, Y.F. Mao, Lamberto Luminari, J. Berdugo, P. Göttlicher, J. Fehlmann, Z.L. Xue, Pierre Lecomte, M. Vollmar, Charles Timmermans, O. Rind, Hafeez R. Hoorani, M. Fabre, Georgi Sultanov, V. P. Andreev, G.J. Bobbink, B.L. Betev, G. M. Chen, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), CMS, Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), L3, and IHEF (IoP, FNWI)
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Physics ,Nuclear and High Energy Physics ,Particle physics ,Sterile neutrino ,010308 nuclear & particles physics ,Astrophysics::High Energy Astrophysical Phenomena ,Electron–positron annihilation ,High Energy Physics::Phenomenology ,Dirac (software) ,01 natural sciences ,Lower limit ,Nuclear physics ,MAJORANA ,grey literature ,Citation analysis ,0103 physical sciences ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,High Energy Physics::Experiment ,Neutrino ,Nuclear Experiment ,010306 general physics ,GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries) ,Particle Physics - Experiment ,Lepton - Abstract
We have searched for charged and neutral leptons. We exclude stable Dirac neutrinos below 42.8 GeV and stable Majorana neutrinos below 34.8 GeV. From a search for unstable neutrinos we exclude masses below 46.4 GeV (Dirac) and below 45.1 GeV (Majorana). We exclude all masses of sequential charged and neutral leptons, except if both masses are larger than 42.8 GeV (for stable Dirac neutrinos). All mass limits correspond to 95% CL.
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- 1990
- Full Text
- View/download PDF
43. [Changes of humoral and cellular immunity in chronic hepatitis C patients of different staging]
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O V, Masalova, A G, Abdulmedzhidova, K V, Morgunov, S V, Grishchenko, T V, Shkurko, E I, Lakina, E I, Kelli, D K, L'vov, and A A, Kushch
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Adult ,Male ,Immunity, Cellular ,Adolescent ,Alanine Transaminase ,Apoptosis ,Hepacivirus ,Hepatitis C Antibodies ,Hepatitis C, Chronic ,Middle Aged ,Viral Nonstructural Proteins ,Moscow ,Leukocyte Count ,Hospitals, Urban ,Liver ,Antigens, CD ,Leukocytes, Mononuclear ,Humans ,RNA, Viral ,Female ,fas Receptor - Abstract
The purpose of the present study was to investigate the influence produced by viral proteins in the hepatic cells and RNA of hepatitis C virus (HCV) on the indices of T- and B-cell response in 52 patients with chronic hepatitis C (CHC). A relative count of peripheral-blood lymphocytes (PBL), expressing antigens CD3+, CD4+, CD8+, CD16+, CD20+ and CD95+ was estimated. The repertoire of antibodies to HCV proteins was specified. The thus obtained data were compared with an activity and a disease stage by using the histological diagnosis and alanine-amino-transferase (ALT) level as well as with the presence of HCV RNA in the serum and viral protein of the liver. Such comparison of data and the use of the correlation analysis made it possible to establish that the antibodies to NS5 protein were detected reliably more often in patients with a more pronounced hepatic fibrosis, with a higher ALT activity and with expression of HCV proteins in the liver. At the same time, the presence of proteins in the liver and of RNA in the serum were accompanied by a more active humoral response to the non-structure proteins of NS4 and NS5 as well as by more profound discrepancies of the immunity T-cell chain (a lowered ratio of CD4+/CD8+ and a smaller content of CD95+). There were no differences between PBL of the studied populations in patients with various activities and an HCV stage. A relatively bigger quantity of CD95(+)--positive PBL was found to be reliably higher in patients with viremia but lower in those cases, in which HCV proteins were detected in the liver. This confirms the inhibiting ability of HCV proteins to the Fas-mediated apoptose of PBL in CHC patient.
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- 2003
44. An electroluminescence emission detector to search for positron double-beta decays of /sup 124/Xe and of /sup 78/Kr
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A. Koutchenkov, G. Safronov, Alexander Bolozdynya, V. Egrov, G. Smirnov, S.A. Medved, and V. Morgunov
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Physics ,Positron ,Double beta decay ,Scintillation counter ,Isotopes of xenon ,Beta (velocity) ,Atomic physics ,Beta decay ,Radioactive decay ,Particle detector - Abstract
An emission detector, self-triggered with scintillation, is proposed to search for positron double-beta decays of /sup 124/Xe and of /sup 78/Kr. Ionisation clusters are extracted from liquid phase and measured with matrix of photodetectors as electroluminescent flashes of the gas phase. In case of 2/spl beta//sup +/ decay, a useful event will contain 5 ionisation clusters, cross-laying in the same plane. In case of K/spl beta//sup +/ decay, a useful event will contain 3 clusters, laying in the same line. Proposed detector with 0.4 m/sup 3/ working volume will be able to check the theoretical prediction for T/sub 1/2/ of 2/spl beta//sup +/2/spl nu/ and K/spl beta//sup +/2/spl nu/ decays of /sup 124/Xe isotope in over-ground experiment and of 2/spl beta//sup -/0/spl nu/, 2/spl beta//sup -/2/spl nu/ decays of /sup 134/Xe, /sup 136/Xe isotopes in underground experiment with natural mixture of Xe isotopes. Seeking for 2/spl beta//sup +/0/spl nu/, 2/spl beta//sup +/2/spl nu/, K/spl beta//sup +/0/spl nu/ and K/spl beta//sup +/2/spl nu/ decays of /sup 78/Kr in over-ground experiment with natural mixture of isotopes is also possible with additional NaI(Tl) triggering system surrounding the emission detector. High pressure Xe gas-filled model of the emission detector with working volume of 40 cm diameter and 4 cm depth is built and tested with multi-clusters events generated by absorbing /spl gamma/-radiation.
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- 2002
- Full Text
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45. Use of ultrasound to enhance PEI-mediated gene delivery in vivo on diabetic model
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Tetiana P Ruban, Dmytro M Irodov, V. A. Kordium, O. K. Toporova, Rostyslav V Bubnov, T. P. Gulko, and Pavlo V Morgunov
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Preproinsulin ,Expression vector ,business.industry ,Health Policy ,Genetic enhancement ,Transgene ,Biochemistry (medical) ,Transfection ,Gene delivery ,Molecular biology ,In vivo ,Drug Discovery ,Meeting Abstract ,Medicine ,business ,Sonoporation - Abstract
Background and aims Gene therapy has strong therapeutic potential for the personalized treatment of type 1 diabetes. Local gene delivery methods for gene therapy are a promising strategy to increase the therapeutic genes concentration at the target location. Transient ultrasound can cause the local increase of cell membrane permeability thus promoting the penetration of transfection particles into the cell. The objective of this work is to evaluate transfection efficiency and safety for intrahepatic polyplex-mediated gene delivery by sonoporation. Methods Polyplexes of expression vector DNAs complexed to galactose-bearing polyethylenimine (L-PEI) have been used. Expression vectors are two plasmids containing expression cassette for full-size human preproinsulin gene controlled with CMV promoter and flanked by inverted terminal repeats of AAV (pTRhins) and the same cassette for marker gfp gene (pTRegfp). Animals were injected under US guidance with polyplexes in a dose of 40 µg pTRegfp /0.7 ml (rat) and of 15 µg pTRhins /0.15 ml (diabetic mouse) into the liver parenchyma of subdiaphragmal segments using 31 G needles. Afterwards injection locus in depth of 1 cm during 180 sec was insonated by 130 Db ultrasound using multifrequency 3-5 MHz probe. Results Sonoporation is able to increase polyplex gene transfer to liver cells in vivo. Flow cytometry analysis of primary hepatocytes isolated from the liver of experimental rats showed that ultrasound -enhanced polyplex gene transfer was highly localized, and was superior to all controls. At least 42% of the liver cells in vivo can be transfected in this way with ultrasound exposure versus 1.2% without it. Hypoglycemic effect of the insulin gene delivery followed by 3m in US exposure was observed on the third day: glucose level of diabetic mice (hyperglycemic 6- week) decreased in average by 30%. Nevertheless sonoporation does not increase naked plasmid DNA (without L-PEI ) transfection efficiency. A week and a month after the procedure serial sections from rat liver injected with polyplexes containing 40 µg marker plasmid or saline solution alone exposed to US and without it was analyzed for the presence of inflammation. Pathomorphological and histological analysis of experimental livers revealed no inflammatory processes in tissues, and any detectable side effects of US-enhanced gene delivery were seen. Experimental mice and rat liver DNAs were positive in transgene PCR for 3 months after gene delivery. Conclusions
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- 2014
46. MEASUREMENT OF Z0-]BBBAR DECAY PROPERTIES
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W. Wallraff, Guofan Hu, Marco Meschini, D. Kirkby, A. Arefiev, H. Anderhub, Aa Vorobyov, J. G. Branson, J. Von Rango, E. Thomas, J.H. Wang, K. N. Qureshi, R. Leiste, Zhongyukun Xu, P. K. Malhotra, T. Foreman, A. Kunin, Y.J. Pei, Wolfgang Lohmann, H. Vogt, Z. W. Yin, J.M. Qian, S. N. Ganguli, H. van der Graaf, Philip Kaaret, B. Bertucci, D. Zhang, J. Ulbricht, A. Degré, Nicanor Colino, G. Herten, W. Friebel, G. Faber, D. Kaplan, W. J. Metzger, Corinne Goy, M. Guanziroli, F. Marzano, W.-D. Nowak, Petr Levchenko, R. Dolin, W. Krenz, G. Schwering, L. Montanet, G.G.G. Massaro, D. Pandoulas, U. Micke, D. Linnhofer, R. Mount, An.A. Vorobyov, T. Matsuda, A. Kuhn, J. P. Martin, F. Wittgenstein, F. Carbonara, O. Adriani, J. A. Bakken, Federico Carminati, S. Beingessner, L. Ludovici, J. Mnich, L. Martinez, E. Shumilov, J. Zoll, E. Drago, M. Elkacimi, P. Duinker, J. Bao, L. Niessen, F. L. Linde, M. Fukushima, Raffaello D'Alessandro, R. Morand, Z. L. Xue, M. Schöntag, W. Böhlen, Samuel C.C. Ting, V. Shoutko, T. Driever, T. Kramer, Y. Mi, L. Urbàn, J. Berdugo, B. Spiess, D. Antreasyan, J. J. Blaising, G. Landi, M. J. Glaubman, L. Antonov, T. Spickermann, S. Kwan, S. Schulte, M. Harris, C. Grinnell, Leonardo Merola, Steven Goldfarb, R.B. Sutton, P. Schmitz, Howard A. Stone, Alexei Klimentov, J. M. Le Goff, D.H. Zhang, P. Vikas, T.S. Dai, V. Lalieu, H. Haan, M. Tonutti, P. J. Li, P. Lebrun, Dimitri Bourilkov, W. Walk, Mariagrazia Alviggi, C. Pols, Z.F. Gong, W. Ruckstuhl, C. Camps, Mingshui Chen, V. Plyaskin, S. C. Tonwar, R. De Asmudis, D.N. Mao, C. Souyri, Luciano Romero, Fridolin Dittus, B. Monteleoni, Yu. Kamyshkov, C. Zabounidis, Qian Wang, K. Freudenreich, Mw Gruenewald, Bernard Ille, V. Koutsenko, D. P. Stickland, D. Goujon, E. Dénes, A. Marchionni, Wen-Gan Ma, Qi An, S. Lökös, T. Azemoon, I. Vetlitsky, J. A. Rubio, R. Magahiz, Konrad Deiters, Y. Mir, C. H. Ye, P. Marchesini, V. Morgunov, J.M. Thenard, A.M. Cartacci, Thomas Ferguson, S. Patricelli, K.S. Yang, W. Kittel, J.P. Burq, C. G. Yang, C. F. He, K. Sudhakar, E. Jagel, S.Y. Zhang, R.C. Ball, Adrian Biland, H.R. Dimitrov, Th. Rombach, V.R. Krastev, S. Rosier-Lees, Ming Zeng, U. Uwer, Marcos Cerrada, F. Cesaroni, J. Y. Liao, J. D. Burger, E. Gonzalez, B. Borgia, M. Gailloud, D. Ren, T. Riemann, Q. Ye, B. N. Jin, S. X. Wu, G. Sauvage, A. van Laak, Simonetta Gentile, A. Chen, Alberto Aloisio, K.D. Shmakov, S. J. Fan, A. Pevsner, A. Grimes, P. McBride, G. Rahal-Callot, P. Le Coultre, A. Sopczak, X. Leytens, J. Salicio, M. Röhner, J. Schütte, A. Contin, Ph. Rosselet, S. Lanzano, Bernardo Adeva, X. L. Wang, E. Nagy, Harvey B Newman, M. Steuer, B. P. Roe, L.S. Hsu, K. Hangarter, G. Forconi, Alexander Savin, J. Weber, Ren-Yuan Zhu, Luciano Barone, Barry Blumenfeld, M. Vivargent, Christine Buisson, Kenneth Francis Read, M. Schneegans, G. Conforto, K. Hilgers, A. Heavey, C-Q. Li, Th. Meinholz, A. Engler, K. Schultze, E. Tarkovsky, F. Bruyant, Valery Schegelsky, E. Perrin, Antonino Zichichi, J.M. Lubbers, A. Böhm, Y.F. Mao, X.R. Shi, Z. M. Wang, I. Clare, M. Sachwitz, Yu. Galaktionov, M. Capell, Jozsef Toth, J. Lettry, Claudio Luci, F.C. Erné, Q.Y. Yang, A. Gurtu, Elisabetta Gallo, X. W. Tang, D. Güsewell, R. Starosta, D. Luckey, Gy L. Bencze, H. Rykaczewski, F. Ferroni, R. T. Van de Walle, R. Liu, V. Commichau, H. J. Schreiber, D. Lanske, Y. Karyotakis, Igor Vorobiev, D. Perret-Gallix, J. Alcaraz, H. S. Fesefeldt, Sc Yeh, G. Fernandez, I. Sheer, R. Bizzarri, S. Hancke, P. A. Piroué, Ian Brock, Y. Zeng, P. Göttlicher, U. Herten, F. DeNotaristefani, G.B. Mills, G. Coignet, Reinhard W. Schulte, C. Dionisi, Alain Hervé, L. Leistam, Chenliang Wang, S. S. Gau, M. Hebert, Panos A Razis, L. Baksay, Tariq Aziz, M. Bocciolini, P.V.K.S. Baba, Oliver Kornadt, M. Pohl, Jean Fay, M. Bourquin, Cheng Chen, P.G. Seiler, M. Dhina, D. Boutigny, A. Bay, D. Campana, R.J. Wu, Peter Denes, K. Strauch, S. Reucroft, G. Gratta, P. Blömeke, H. Fenker, A. Gordeev, M. Micke, Carlo Civinini, Z. Y. Lin, B. Stöhr, Boleslaw Wyslouch, C.Y. Chien, M.L. Chen, Paolo Bagnaia, M. Maolinbay, Lamberto Luminari, P. Berges, T. Angelov, X.G. Li, Kajari Mazumdar, X. D. Cai, M. Gettner, X. Lue, M. Aguilar-Benitez, I. Duran, P. F. Klok, M. Maire, G. Hu, C. Maña, Marcella Diemoz, Crisostomo Sciacca, Marco Pieri, Herwig Schopper, U. K. Chaturvedi, J. Fehlmann, L. Li, Y. S. Lu, M. White, Z.Q. Yang, Alexander Malinin, C. Rippich, Carlos Willmott, G. Von Dardel, Jérôme Rose, R. Wilhelm, J. H. Field, Pierre Lecomte, J.F. Li, Y. H. Chang, H. T. Li, George Alverson, T. Böhringer, E. Valente, M. Fabre, Charles Timmermans, H. Suter, Y.F. Wang, Vineet Kumar, G. Viertel, Georgi Sultanov, R. A. Khan, P. Schmitt, Valentin V. Khoze, Zhen Zhang, Hans J. Vogel, S. Morganti, L. Zehnder, U. Becker, G. Mirabelli, V. P. Andreev, J. Schwenke, Sandra Consuegra Rodríguez, G.J. Bobbink, X. Y. Cui, M. Chemarin, K. Lübelsmeyer, Piero Spillantini, S. Banerjee, G. M. Chen, F. J. Eppling, L. W. Jones, D. S. Yan, S. M. Ting, M. Vollmar, D. Wright, H. F. Chen, G. Chiefari, S. Shevchenko, V. Sheevchenko, Zhuoxiang Ren, D. J. Schotanus, J. M. You, N. Produit, G. A. Yang, A. A. Syed, K. Lanius, F. Crijns, Marcel Merk, J. Perrier, Egidio Longo, M. M. Ilyas, R. Fabbretti, J.C. Sens, R. Weill, R. Raghavan, A. C. König, Y.P. Tong, Laurent Vuilleumier, E. Isiksal, A. L. Anderson, R. L. Sumner, G. H. Wang, J. Wenninger, Ying Wu, J. F. Zhou, M. MacDermott, V. Pojidaev, Nikita Smirnov, P. Extermann, I. Leedom, B. Z. Yang, H. Hofer, K. L. Tung, V. Innocente, B. L. Betev, G. Morand, S. L. Wu, Speranza Falciano, Yanwen Liu, T.J. Wenaus, H. Akbari, G. Paternoster, D.W. Schmitz, Robert Clare, Thomas Hebbeker, Paul Lecoq, R. W. Kraemer, M. Napolitano, H. S. Chen, B., Adeva, O., Adriani, M., Aguilarbenitez, H., Akbari, J., Alcaraz, Aloisio, Alberto, G., Alverson, Alviggi, Mariagrazia, Q., An, H., Anderhub, A. L., Anderson, V. P., Andreev, T., Angelov, L., Antonov, D., Antreasyan, A., Arefiev, T., Azemoon, T., Aziz, P. V., K., P., Bagnaia, J. A., Bakken, L., Baksay, R. C., Ball, S., Banerjee, J., Bao, L., Barone, A., Bay, U., Becker, S., Beingessner, G. L., Bencze, J., Berdugo, P., Berge, B., Bertucci, B. L., Betev, A., Biland, R., Bizzarri, J. J., Blaising, P., Blomeke, B., Blumenfeld, G. J., Bobbink, M., Bocciolini, W., Bohlen, A., Bohm, T., Bohringer, B., Borgia, D., Bourilkov, M., Bourquin, D., Boutigny, J. G., Branson, I. C., Brock, F., Bruyant, C., Buisson, J. D., Burger, J. P., Burq, X. D., Cai, D., Campana, C., Camp, M., Capell, F., Carbonara, F., Carminati, A. M., Cartacci, M., Cerrada, F., Cesaroni, Y. H., Chang, U. K., Chaturvedi, M., Chemarin, A., Chen, C., Chen, G. M., Chen, H. F., Chen, H. S., Chen, M., Chen, M. L., Chen, Chiefari, Giovanni, C. Y., Chien, C., Civinini, I., Clare, R., Clare, G., Coignet, N., Colino, V., Commichau, G., Conforto, A., Contin, F., Crijn, X. Y., Cui, T. S., Dai, R., Dalessandro, R., Deasmudi, A., Degre, K., Deiter, E., Dene, P., Dene, F., Denotaristefani, M., Dhina, M., Diemoz, H. R., Dimitrov, C., Dionisi, F., Dittu, R., Dolin, E., Drago, T., Driever, P., Duinker, I., Duran, M., Elkacimi, A., Engler, F. J., Eppling, F. C., Erne, P., Extermann, R., Fabbretti, G., Faber, S., Falciano, S. J., Fan, M., Fabre, J., Fay, J., Fehlmann, H., Fenker, T., Ferguson, G., Fernandez, F., Ferroni, H., Fesefeldt, J., Field, G., Forconi, T., Foreman, K., Freudenreich, W., Friebel, M., Fukushima, M., Gailloud, Y., Galaktionov, E., Gallo, S. N., Ganguli, S. S., Gau, S., Gentile, M., Gettner, M., Glaubman, S., Goldfarb, Z. F., Gong, E., Gonzalez, A., Gordeev, P., Gottlicher, D., Goujon, C., Goy, G., Gratta, A., Grime, C., Grinnell, M., Gruenewald, M., Guanziroli, A., Gurtu, D., Gusewell, H., Haan, S., Hancke, K., Hangarter, M., Harri, C. F., He, A., Heavey, T., Hebbeker, M., Hebert, G., Herten, U., Herten, A., Herve, K., Hilger, H., Hofer, L. S., Hsu, G., Hu, G. Q., Hu, B., Ille, M. M., Ilya, V., Innocente, E., Isiksal, E., Jagel, B. N., Jin, L. W., Jone, P., Kaaret, R. A., Khan, Y., Kamyshkov, D., Kaplan, Y., Karyotaki, V., Khoze, D., Kirkby, W., Kittel, A., Klimentov, P. F., Klok, A. C., Konig, O., Kornadt, V., Koutsenko, R. W., Kraemer, T., Kramer, V. R., Krastev, W., Krenz, A., Kuhn, V., Kumar, A., Kunin, S., Kwan, A., Vanlaak, V., Lalieu, G., Landi, K., Laniu, D., Lanske, S., Lanzano, P., Lebrun, P., Lecomte, P., Lecoq, P., Lecoultre, I., Leedom, J. M., Legoff, L., Leistam, R., Leiste, J., Lettry, P. M., Levchenko, X., Leyten, C., Li, H. T., Li, J. F., Li, L., Li, P. J., Li, X. G., Li, J. Y., Liao, R., Liu, Y., Liu, Z. Y., Lin, F. L., Linde, D., Linnhofer, W., Lohmann, S., Loko, E., Longo, Y. S., Lu, J. M., Lubber, K., Lubelsmeyer, C., Luci, D., Luckey, L., Ludovici, X., Lue, L., Luminari, W. G., Ma, M., Macdermott, R., Magahiz, M., Maire, P. K., Malhotra, A., Malinin, C., Mana, D. N., Mao, Y. F., Mao, M., Maolinbay, P., Marchesini, A., Marchionni, J. P., Martin, L., Martinez, F., Marzano, G. G., G., T., Matsuda, K., Mazumdar, P., Mcbride, T., Meinholz, M., Merk, Merola, Leonardo, M., Meschini, W. J., Metzger, Y., Mi, M., Micke, U., Micke, G. B., Mill, Y., Mir, G., Mirabelli, J., Mnich, L., Montanet, B., Monteleoni, G., Morand, R., Morand, S., Morganti, V., Morgunov, R., Mount, E., Nagy, Napolitano, Marco, H., Newman, L., Niessen, W. D., Nowak, D., Pandoula, Paternoster, Giovanni, Patricelli, Sergio, Y. J., Pei, D., Perretgallix, J., Perrier, E., Perrin, A., Pevsner, M., Pieri, P. A., Piroue, V., Plyaskin, M., Pohl, V., Pojidaev, C. L., A., N., Produit, J. M., Qian, K. N., Qureshi, R., Raghavan, G., Rahalcallot, J., Vonrango, P., Razi, K., Read, D., Ren, Z., Ren, S., Reucroft, T., Riemann, C., Rippich, S., Rodriguez, B. P., Roe, M., Rohner, T., Rombach, L., Romero, J., Rose, S., Rosierlee, P., Rosselet, J. A., Rubio, W., Ruckstuhl, H., Rykaczewski, M., Sachwitz, J., Salicio, G., Sauvage, A., Savin, V., Schegelsky, P., Schmitt, D., Schmitz, P., Schmitz, M., Schneegan, M., Schontag, H., Schopper, D. J., Schotanu, H. J., Schreiber, R., Schulte, S., Schulte, K., Schultze, J., Schutte, J., Schwenke, G., Schwering, Sciacca, Crisostomo, P. G., Seiler, J. C., Sen, I., Sheer, V., Shevchenko, S., Shevchenko, X. R., Shi, K., Shmakov, V., Shoutko, E., Shumilov, N., Smirnov, A., Sopczak, C., Souyri, T., Spickermann, B., Spie, P., Spillantini, R., Starosta, M., Steuer, D. P., Stickland, B., Stohr, H., Stone, K., Strauch, K., Sudhakar, G., Sultanov, R. L., Sumner, H., Suter, R. B., Sutton, A. A., Syed, X. W., Tang, E., Tarkovsky, J. M., Thenard, E., Thoma, C., Timmerman, S. C., C., S. M., Ting, Y. P., Tong, M., Tonutti, S. C., Tonwar, J., Toth, K. L., Tung, J., Ulbricht, L., Urban, U., Uwer, E., Valente, R. T., Vandewalle, H., Vandergraaf, I., Vetlitsky, G., Viertel, P., Vika, M., Vivargent, H., Vogel, H., Vogt, M., Vollmar, G., Vondardel, I., Vorobiev, A. A., Vorobyov, L., Vuilleumier, W., Walk, W., Wallraff, C. R., Wang, G. H., Wang, J. H., Wang, Q. F., Wang, X. L., Wang, Y. F., Wang, Z. M., Wang, J., Weber, R., Weill, T. J., Wenau, J., Wenninger, M., White, R., Wilhelm, C., Willmott, F., Wittgenstein, D., Wright, R. J., Wu, S. L., Wu, S. X., Wu, Y. G., Wu, B., Wyslouch, Z. Z., Xu, Z. L., Xue, D. S., Yan, B. Z., Yang, C. G., Yang, G., Yang, K. S., Yang, Q. Y., Yang, Z. Q., Yang, Q., Ye, C. H., Ye, S. C., Yeh, Z. W., Yin, J. M., You, C., Zabounidi, L., Zehnder, M., Zeng, Y., Zeng, D., Zhang, D. H., Zhang, S. Y., Zhang, Z. P., Zhang, J. F., Zhou, R. Y., Zhu, A., Zichichi, and J., Zoll
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Nuclear physics ,Physics ,Nuclear and High Energy Physics ,Particle physics ,Muon ,media_common.quotation_subject ,Electron–positron annihilation ,Hadron ,Charge (physics) ,Asymmetry ,Bottom quark ,media_common - Abstract
We have measured the properties of Z0 → b b decays using a sample of 944 inclusive muon events, corresponding to 18 000 hadron events obtained with the L3 detector at LEP. We measured the partial decay width of the Z0 into b b , Γ b b =353±48 MeV , and we determined the vector coupling of the Z0 to the b quark; grmv2(b)=0.095±0.047. We measured the forward-backward charge asymmetry in e+e− → b b events at √s≈Mv, and obtained A b b =13.3±9.9% .
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- 1990
47. The magnitude of the gluon condensate and the masses of c and b quarks from the families of T/{Psi} and {Upsilon} mesons
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V. Morgunov and B. Geshkenbein
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Quark ,Quantum chromodynamics ,Physics ,Particle physics ,Meson ,High Energy Physics::Lattice ,Operator (physics) ,High Energy Physics::Phenomenology ,High Energy Physics::Experiment ,Invariant mass ,Gluon condensate ,Function (mathematics) ,Plateau (mathematics) - Abstract
It is shown that the model used by Shifman, Vainshtein, and Zakharov for the description of the experimental function R{sub c}(s) in the form of a sum of {delta}-functions and the plateau contradicts the Wilson operator expansion (O.E.) in the terms due to the gluon condensate. A QCD model with an infinite number of vector mesons does satisfy the requirements of the O.E. for masses and electronic width resonances close to the experimental values. The region of allowable values of the masses of c- and b-quarks and the gluon condensate compatible with the O.E. is obtained.
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- 1993
- Full Text
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48. Hadron calorimetry in the L3 detector
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R.J. Wu, M.L. Chen, A. Schultz von Dratzig, S. Shevchenko, R. A. Khan, G. M. Chen, Qi An, Y. J. Pei, Yu. Kamyshkov, M. M. Ilyas, Y.B. Lin, G.B. Mills, A. Arefiev, Yu. Galaktionov, Tariq Aziz, H. Haan, K. N. Qureshi, S. N. Ganguli, V. Plyaskin, Y. S. Lu, Ying Wu, J. F. Zhou, I. Vetlitsky, B. P. Roe, M. Wadhawa, Cheng Chen, G. Schwering, K. Sudhakar, A. Savin, Marco Pieri, Steven Goldfarb, Oliver Kornadt, Vitaliy G. Shevchenko, H. Hofer, K. L. Tung, K.D. Shmakov, E. Shoumilov, Raffaello D'Alessandro, A. Marchionni, Yu. Gorodkov, A. Gurtu, X. Y. Cui, O. Adriani, R. Raghavan, E. Tarkovsky, M. Capell, J. Lettry, D. Pandoulas, R. Siedling, Y. F. Wang, T. Azemoon, Vineet Kumar, S. R. Chendvankar, Elisabetta Gallo, P. LeCoultre, W. Wallraff, S. Banerjee, H. T. Li, M. Röhner, A. Klimentov, V. Pojidaev, L. W. Jones, S.W. Wu, X. W. Tang, Antonino Zichichi, Z.F. Gong, I. Vorobiev, V. Koutsenko, S. Saran, Kajari Mazumdar, Xd Cai, V. Morgunov, P. K. Malhotra, A. Kunin, R. C. Ball, Pierre Lecomte, A. Malinin, V. Shoutko, K. Lübelsmeyer, P. Blömeke, S. C. Tonwar, H. S. Chen, A. Gordeev, Marco Meschini, J. Ulbricht, L. Niessen, Waclaw Karpinski, Carlo Civinini, X.G. Li, and B. Spiess
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Physics ,Nuclear and High Energy Physics ,Particle physics ,Muon ,Calorimeter (particle physics) ,Physics::Instrumentation and Detectors ,High Energy Physics::Phenomenology ,Hadron ,Detector ,Resolution (electron density) ,Calorimetry ,Hadron calorimeter ,Nuclear physics ,High Energy Physics::Experiment ,Detectors and Experimental Techniques ,Nuclear Experiment ,Instrumentation - Abstract
The characteristics of the L3 hadron calorimeter as realized in the observation of hadronic jets and other events from e + e − collisions at LEP are presented and discussed. The pattern-recognition algorithm utilizing the fine granulatiry of the calorimeter is described, and the observed overall resolution of 10.2% for hadron jets from Z decay is reported. The use of the calorimeter in providing information on muon energy losses is also noted.
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- 1990
49. Search for a low mass neutral Higgs boson in Z0 decay
- Author
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G. Landi, M. Merk, P. Vikas, Alain Hervé, R. Rosmalen, M. Fabre, A. Bay, A. A. Syed, K. Sudhakar, Georgi Sultanov, R. A. Khan, Carlo Civinini, T. Driever, M. Maolinbay, Tariq Aziz, V. P. Andreev, G.J. Bobbink, X.G. Li, M. Aguilar-Benitez, I. Duran, B.C. Stringfellow, P. Schmitz, Alexei Klimentov, J.M. Qian, Egidio Longo, J.C. Sens, M. Yzerman, F. Crijns, T. Kramer, M. Chemarin, Herwig Schopper, Valery Schegelsky, Antonino Zichichi, Ph Fisher, H. Rykaczewski, C. Camps, K. Freudenreich, F. Ferroni, Y. Zeng, Igor Vorobiev, M. White, G. M. Chen, J. J. Blaising, M. M. Ilyas, Y. Karyotakis, H.T. Li, G. Finocchiaro, Y. H. Chang, G. Fernandez, B. L. Betev, George Alverson, Panos A Razis, R. Fabbretti, H. R. Gustafson, Vineet Kumar, P. Blömeke, H. Haan, J. Behrens, P. J. Li, P. Lebrun, Fridolin Dittus, Mariagrazia Alviggi, Dimitri Bourilkov, Marco Meschini, R.J. Wu, A. Sopczak, J. Perrier, L. Baksay, Yu. Galaktionov, Crisostomo Sciacca, François Chollet, Marco Pieri, C. Rippich, D. Pandoulas, T. McMahon, B. Monteleoni, Petr Levchenko, S. Röhner, D. Kirkby, BT Bouwens, J. Alcaraz, R. Malik, T. Spickermann, L.S. Hsu, G. Morand, W. Wallraff, Guofan Hu, J.M. Lubbers, M. Bourquin, F. Wittgenstein, K. Strauch, G. Gratta, L. Urbàn, Zhuoxiang Ren, M. Wadhwa, D. J. Schotanus, Bernard Ille, R. Magahiz, J. M. You, A. Arefiev, Aa Vorobyov, E. Jagel, W. Kittel, N. Produit, Wen-Gan Ma, L. Ludovici, E. Drago, An.A. Vorobyov, T. Matsuda, A. Chen, O. Adriani, J. Salicio, Lucas Taylor, I. Vetlitsky, A. Gordeev, M. Micke, Jozsef Toth, J. Lettry, Claudio Luci, Konrad Deiters, C.Y. Chien, M. Lenti, A. L. Anderson, Cheng Chen, B. Stöhr, J. D. Swain, K. N. Qureshi, O. Rind, P. McBride, L. Niessen, Sau Lan Wu, Jean Fay, M. Dhina, D. Boutigny, D.W. Schmitz, G.G.G. Massaro, Z. Y. Lin, Elisabetta Gallo, U. Roeser, Alberto Aloisio, Y.J. Pei, M. Harris, G. A. Yang, R.C. Ball, Z.L. Xue, Adrian Biland, Wolfgang Lohmann, H. Vogt, B. Bertucci, M.L. Chen, G. Sauvage, Ying Wu, V. Plyaskin, E. Nagy, C-Q. Li, C. Zaccardelli, Nicanor Colino, Yanwen Liu, Chenliang Wang, Federico Carminati, Th. Meinholz, X. Lue, U. K. Chaturvedi, A. Böhm, Hafeez R. Hoorani, Y. S. Lu, Marcella Diemoz, G. Coignet, J. F. Zhou, Y. Mi, G. Schwering, Robert Clare, J. G. Branson, X. W. Tang, Z.Q. Yang, P. A. Piroué, D.N. Mao, Yu. Kamyshkov, K.D. Shmakov, S. J. Fan, S. Reucroft, Harvey B Newman, D. DiBitonto, Luciano Romero, Bolek Wyslouch, Qian Wang, Helmut Vogel, S. C. Yeh, M. Möller, R. Leiste, H. Fenker, E. Dénes, R. Sehgal, M. Schneegans, Jérôme Rose, J. H. Field, K. Hilgers, Ph. Rosselet, G. Trowitzsch, S. C. Tonwar, Zhen Zhang, F. Marzano, B. N. Jin, S. Rosier-Lees, W. Krenz, M. MacDermott, R. Raghavan, A. C. König, G. Mirabelli, H. F. Chen, Thomas Hebbeker, Paul Lecoq, R. W. Kraemer, L. Z. Sun, Z. W. Yin, Qiang Li, W. Böhlen, Mw Gruenewald, G. Von Dardel, S. Schulte, Frank Filthaut, M. Sachwitz, S. N. Ganguli, C. F. He, P. Le Coultre, K. Lübelsmeyer, Piero Spillantini, Y.P. Tong, M. A. Niaz, Laurent Vuilleumier, Ren-Yuan Zhu, Luciano Barone, M. Napolitano, T. Ferguson, E. Isiksal, M. Guanziroli, C. G. Yang, W. Ruckstuhl, K. Hangarter, A. Degré, X. L. Wang, S. X. Wu, L. Zehnder, M. Vivargent, Christine Buisson, G. Herten, Q.Y. Yang, T. Böhringer, W. Friebel, G. Faber, U. Herten, A. Gurtu, D. P. Stickland, P. Marchesini, A. Pevsner, Ming Zeng, R. L. Sumner, G. H. Wang, A. Engler, J. P. Martin, V. Commichau, H. J. Schreiber, J.B. Ye, S. Banerjee, Z. M. Wang, C. J.W.P. Timmermans, P. Extermann, Giovanni Paternoster, G. Chiefari, S. Shevchenko, Raffaello D'Alessandro, C. Grinnell, H. S. Chen, A. Kuhn, M. Röhner, M. Bocciolini, Lamberto Luminari, K. S. Kumar, Y. Mir, C. H. Ye, Barry Blumenfeld, R. Starosta, A.M. Cartacci, D. Luckey, H.R. Dimitrov, Gy L. Bencze, I. Leedom, B. Z. Yang, A. Hasan, S. Beingessner, H. Hofer, Kajari Mazumdar, M. Capell, J. A. Bakken, J. Wenninger, J. Fehlmann, S. Patricelli, Reinhard W. Schulte, F. C. Erné, K. L. Tung, E. Thomas, Pierre Lecomte, Y. D. Xu, M. Steuer, Y.F. Mao, V. Shevchenko, J. M. Salicio, V. Pojidaev, U. Micke, D. Perret-Gallix, H. S. Fesefeldt, Leonardo Merola, R. T. Van de Walle, G. Sartorelli, Nikita Smirnov, J. Mnich, G. Forconi, J. Weber, D. Linnhofer, Zm Wang, J.H. Wang, Zhongyukun Xu, P. K. Malhotra, S. Khokhar, R. Mount, H. A. Rizvi, A. Kunin, J. D. Burger, G. Rahal-Callot, E. Shumilov, C. Maña, P.G. Seiler, Q. Ye, I. Scott, F. Diez-Hedo, T. Azemoon, T. Foreman, C. Spartiotis, P. Duinker, J. Berdugo, M. Hebert, Peter Denes, M. Gailloud, G.B. Mills, Samuel C.C. Ting, R. Wilhelm, E. Valente, R. Bizzarri, W. J. Metzger, Paolo Bagnaia, M.C. Chen, R. Weill, T.J. Wenaus, S. Hancke, M. Schöntag, V. Shoutko, Steven Goldfarb, D. McNally, J. Bao, R. Morand, R.B. Sutton, G. Passaleva, Manjit Kaur, F. Carbonara, Marcos Cerrada, X. Leytens, G. Viertel, K. Schultze, E. Tarkovsky, H. van der Graaf, Xd Cai, L. Martinez, H. Akbari, Howard A. Stone, F. L. Linde, S. Morganti, T.S. Dai, Ian Brock, J. Schwenke, F. DeNotaristefani, F. Tonisch, X. Y. Cui, Q. Fan, R. Dolin, Daqiang Zhang, D. Zhang, U. Uwer, D. Lanske, B. Borgia, J. Ulbricht, A. van Laak, M. Fukushima, X.R. Shi, L. Leistam, J. M. Le Goff, I. Clare, B. P. Roe, J. Busenitz, Z.F. Gong, P. Göttlicher, F. Cesaroni, J. Y. Liao, J. Schütte, M. Tonutti, M. Vollmar, S. Lanzano, F. Bruyant, L. J. Gutay, U. Becker, D. Wright, Mingshui Chen, I. Sheer, J.A. Rubio, F. J. Eppling, L. W. Jones, H. El Mamouni, V. Morgunov, D. S. Yan, S. M. Ting, A. Bujak, Oliver Kornadt, M. Pohl, P. Berges, D. Ren, B. Spiess, U. Vikas, M. Maire, L. Li, D. Duchesneau, A. Contin, Alexander Malinin, Alexander Savin, V. Lalieu, V. Koutsenko, J.F. Li, J.P. Burq, H. Suter, Y.F. Wang, Valentin V. Khoze, L. Antonov, J. Krizmanic, A. Marchionni, V.R. Krastev, E. Gonzalez, Bernardo Adeva, T. Angelov, K. Lanius, G. Hu, Carlos Willmott, Speranza Falciano, D. Antreasyan, Qi An, S. Lökös, K.S. Yang, Th. Rombach, Simonetta Gentile, Kenneth Francis Read, G. Conforto, D. Hauschildt, R. Liu, S. S. Gau, P.V.K.S. Baba, H. L. Zhuang, M. J. Glaubman, P. Arce, D. Goujon, Vincenzo Innocente, H. Anderhub, R. de Asmundis, C. Dionisi, Pablo Garcia-Abia, IHEF (IoP, FNWI), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), CMS, Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), and L3
- Subjects
Physics ,Nuclear and High Energy Physics ,Particle physics ,010308 nuclear & particles physics ,High Energy Physics::Phenomenology ,Elementary particle ,01 natural sciences ,Standard Model ,Nuclear physics ,Particle decay ,Pair production ,0103 physical sciences ,Higgs boson ,[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex] ,High Energy Physics::Experiment ,Invariant mass ,010306 general physics ,Particle Physics - Experiment ,Lepton ,Boson - Abstract
We have searched for the neutral Higgs boson produced in the decays of the Z 0 through the process Z 0 → H 0 l + l − in the mass range M H 0 0 → hadrons we exclude a minimal standard model Higgs boson in the mass range 0 M H 0
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- 1990
- Full Text
- View/download PDF
50. Test of QED in e+e−→γγ at LEP
- Author
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C-Q. Li, Guofan Hu, M. Guanziroli, Sc Yeh, R. Bizzarri, S. Hancke, G. Fernandez, L. Baksay, L. Leistam, L.S. Hsu, Z. W. Yin, S. N. Ganguli, E. Shumilov, S. Röhner, M. Schöntag, W. Böhlen, F. Wittgenstein, V. Shoutko, C.Y. Chien, S. Beingessner, P. Berges, M. Maire, R. Liu, L. Ludovici, E. Drago, Yu. Galaktionov, M. Fabre, R.J. Wu, J.M. Lubbers, L. Niessen, Jozsef Toth, J. Lettry, Claudio Luci, D. Pandoulas, J. Alcaraz, Tariq Aziz, V. Shevchenko, O. Rind, J. M. Salicio, M. Bourquin, Hafeez R. Hoorani, Georgi Sultanov, Fl Linde, S. S. Gau, S. X. Wu, R. A. Khan, K. Strauch, X.R. Shi, Z.Y. Lin, B. P. Roe, P.V.K.S. Baba, H. L. Zhuang, X. Lue, T. Driever, V. P. Andreev, L. Li, G.J. Bobbink, D. Duchesneau, M. Chemarin, Alexander Malinin, Elisabetta Gallo, U. Micke, M. Harris, P.G. Seiler, J. Busenitz, G. M. Chen, F. Diez-Hedo, T. Spickermann, U. K. Chaturvedi, R. Malik, Chenliang Wang, Y. S. Lu, J.M. Qian, Y. J. Pei, D. Linnhofer, M. Tonutti, R.B. Sutton, Kajari Mazumdar, S. Khokhar, T.R. McMahon, Joachim Mnich, L. Urbàn, S. Rosier-Lees, T. Riemann, J.G. Branson, F. de Notaristefani, B. Stringfellow, Z.Z. Xu, P. Le Coultre, T. Foreman, K. Hangarter, T. Böhringer, Jérôme Rose, J.F. Li, L. J. Gutay, P. Duinker, R. Starosta, D. Luckey, Gy L. Bencze, G. Herten, Peter Denes, Reinhard W. Schulte, F. C. Erné, H. Suter, Y.F. Wang, W. Friebel, G. Faber, G. Schwering, Paolo Bagnaia, U. Becker, A. Bujak, Oliver Kornadt, M. Pohl, Bernard Ille, Crisostomo Sciacca, S. Reucroft, M. Steuer, J. H. Field, G. Trowitzsch, Marco Pieri, C. Rippich, C. Dionisi, A. Leike, G. Forconi, R. Magahiz, J. Weber, Marco Meschini, Valentin V. Khoze, M. J. Glaubman, Cheng Chen, D. Antreasyan, Pablo Garcia-Abia, L. Antonov, B. Stöhr, Qi An, S. Lökös, D.N. Mao, Xd Cai, K.S. Yang, F. J. Eppling, L. W. Jones, D. S. Yan, B. Spiess, Mingshui Chen, J. Berdugo, S. M. Ting, Alain Hervé, H. R. Gustafson, Ren-Yuan Zhu, Luciano Barone, C. Souyri, R. Leiste, J. Bao, I. Sheer, G. Landi, J. Krizmanic, A. Marchionni, C. Zaccardelli, J. D. Swain, Zhuoxiang Ren, M. Wadhwa, D. J. Schotanus, J. M. You, X. L. Wang, B. N. Jin, H. Nowak, An.A. Vorobyov, H.F. Chen, V. Lalieu, J.M. Thenard, A.M. Cartacci, H.R. Dimitrov, T. Matsuda, Th. Rombach, Simonetta Gentile, V.R. Krastev, E. Gonzalez, Kenneth Francis Read, Q.Y. Yang, N. Produit, A. Kuhn, Bernardo Adeva, V. Koutsenko, V. Morgunov, A. Bay, Carlo Civinini, H. El Mamouni, O. Adriani, M. Maolinbay, X.G. Li, M. Aguilar-Benitez, I. Duran, G.B. Mills, Samuel C.C. Ting, A. Gurtu, G. A. Yang, Dimitri Bourilkov, V. Commichau, H. J. Schreiber, M. Bocciolini, A. Hasan, G. Conforto, L. Z. Sun, T. Angelov, B. Monteleoni, Y. D. Xu, C. Spartiotis, M. Merk, Raffaello D'Alessandro, C. Grinnell, Lucas Taylor, A. A. Syed, K. Lanius, E. Jagel, Federico Carminati, B. L. Betev, J. D. Burger, G. Hu, Wolfgang Lohmann, H. Vogt, P. Arce, M. Gailloud, M. G. Alviggi, P. Vikas, R. Rosmalen, Herwig Schopper, J. Behrens, M. White, J. A. Bakken, Wolfgang Lange, G. Rahal-Callot, D. Goujon, D. Ren, P. J. Li, T. Kramer, L. Zehnder, W. Wallraff, Leonardo Merola, Steven Goldfarb, Fridolin Dittus, B. Bertucci, G. Passaleva, R. Morand, Y. H. Chang, J.P. Burq, George Alverson, Z. L. Xue, S. Patricelli, W. Kittel, Carlos Willmott, Yu. Kamyshkov, J. J. Blaising, Q. Ye, Luciano Romero, Bolek Wyslouch, Nicanor Colino, A. Böhm, T. Azemoon, Howard A. Stone, E. Dénes, R. Sehgal, T.S. Dai, Speranza Falciano, F. Tonisch, Mw Gruenewald, Q. Fan, J.B. Ye, F. Crijns, H. van der Graaf, G. Coignet, S. Banerjee, G.H. Wang, U. Vikas, G. Morand, K. Schultze, Vincenzo Innocente, Y. Mi, E. Tarkovsky, K. Sudhakar, D. Zhang, Bz Yang, A. Contin, U. Uwer, Egidio Longo, Marcos Cerrada, H. T. Li, A. Chen, J. Salicio, Zp Zhang, C. G. Yang, J.C. Sens, Sebastian Nowak, C. F. He, B. Borgia, D. Lanske, J. Ulbricht, A. van Laak, Alexander Savin, K. S. Kumar, H. Haan, G. Finocchiaro, Lamberto Luminari, Igor Vorobiev, V. Plyaskin, Giorgio Gratta, S. L. Wu, Panos A Razis, Vineet Kumar, E. Nagy, Konrad Deiters, P. Schmitz, A. Pevsner, I. Clare, S. C. Tonwar, W.G. Ma, J. Fehlmann, P. Blömeke, A. Arefiev, P. Göttlicher, W. Ruckstuhl, I. Vetlitsky, Barry Blumenfeld, M. M. Ilyas, Patricia McBride, Alexei Klimentov, Alberto Aloisio, A. Gordeev, M. Micke, D. P. Stickland, C. Camps, Valery Schegelsky, Antonino Zichichi, Aa Vorobyov, P. Lebrun, Thomas Ferguson, R.C. Ball, Adrian Biland, M. Vivargent, Christine Buisson, Pierre Lecomte, Z. M. Wang, G. Sartorelli, H. Anderhub, Y. Mir, C. H. Ye, Ph Fisher, Yanwen Liu, H. Rykaczewski, R. Fabbretti, K.D. Shmakov, S. J. Fan, K. Freudenreich, M. Schneegans, Z.Q. Yang, Y. Karyotakis, Andre Sopczak, K. N. Qureshi, Th. Meinholz, G. Sauvage, F. Marzano, W. Krenz, D. DiBitonto, A. Engler, M. MacDermott, Jean Fay, M. Capell, M. Dhina, D. Boutigny, R. Raghavan, D. Perret-Gallix, H. S. Fesefeldt, X. W. Tang, W.-D. Nowak, A. C. König, Y.P. Tong, Laurent Vuilleumier, E. Isiksal, P. A. Piroué, Harvey B Newman, I. C. Brock, M. A. Niaz, G. Mirabelli, E. Thomas, J.H. Wang, P. K. Malhotra, H. A. Rizvi, K. Hilgers, A. Kunin, K. Lübelsmeyer, Piero Spillantini, R. L. Sumner, Qiang Li, M. Hebert, J. Wenninger, M. Sachwitz, F. Ferroni, V. Pojidaev, G. Fanker, S. Schulte, R. Wilhelm, Nikita Smirnov, W. J. Metzger, Y. Zeng, Richard Mount, Zm Wang, F. Carbonara, U. Herten, C. J.W.P. Timmermans, P. Extermann, L. Martinez, R. de Asmundis, I. Leedom, H. Hofer, K. L. Tung, C. Maña, M. Lenti, A. L. Anderson, Ying Wu, J. F. Zhou, Qun Wang, F. Cesaroni, J. Y. Liao, J. Schütte, F. Bruyant, M.L. Chen, R. Dolin, M. Fukushima, Marcella Diemoz, J. M. Le Goff, P.M. Levchenko, Z.F. Gong, G. Von Dardel, D. Kirkby, J. A. Rubio, A. Degré, P. Marchesini, Ming Zeng, M. Röhner, Y.F. Mao, R. T. Van de Walle, E. Valente, R. Weill, D. McNally, X. Leytens, G. Viertel, Hans J. Vogel, S. Morganti, J. Schwenke, X. Y. Cui, J. Perrier, M. Möller, G. Chiefari, S. Shevchenko, M. Vollmar, S. Lanzano, D. Wright, J.P. Martin, T.J. Wenaus, Manjit Kaur, H. Akbari, Daqiang Zhang, G. Paternoster, D.W. Schmitz, G.G.G. Massaro, Robert Clare, Ph. Rosselet, Thomas Hebbeker, Paul Lecoq, R. W. Kraemer, M. Napolitano, and H. S. Chen
- Subjects
Physics ,Nuclear and High Energy Physics ,Particle physics ,Annihilation ,010308 nuclear & particles physics ,Branching fraction ,Electron–positron annihilation ,Elementary particle ,7. Clean energy ,01 natural sciences ,Massless particle ,Nuclear physics ,Particle decay ,0103 physical sciences ,Center of mass ,010306 general physics ,Boson - Abstract
We have measured the cross-section of the reaction e + e − → γγ at center of mass energies around the Z 0 mass. The results are in good agreement with QED predictions. For the QED cutoff parameters the limit of Λ + > 103 GeV and Λ − 118 GeV are found. For the decays Z 0 → γ ,Z 0 → π 0 γ , Z 0 → γγγ we find upper limits of 2.9 × 10 −4 ,2.9×10 −4 ,4.1×10 −4 and 1.2×10 −4 , respectively. All limits are at 95% CL.
- Published
- 1990
Catalog
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