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1,684 results on '"Pillon, M"'

2. Evaluation of the Impact of Different Types of Floors on Equine Therapy with Accelerometry: A Pilot Study

Author

Ranciaro, M., Descio-Trineto, R., Franzo, D., Silva, A. F. S. F., Strasse, W. A. D., Pillon, M. A., Nogueira-Neto, G. N., Nohama, P., Magjarević, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Marques, Jefferson Luiz Brum, editor, Rodrigues, Cesar Ramos, editor, Suzuki, Daniela Ota Hisayasu, editor, Marino Neto, José, editor, and García Ojeda, Renato, editor

Published
2024
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3. Time-Of-Flight methodologies with large-area diamond detectors for ion characterization in laser-driven experiments

Author

Salvadori, M., Di Giorgio, G., Cipriani, M., Verona, C., Andreoli, P. L., Cristofari, G., De Angelis, R., Pillon, M., Andreev, N. E., Antici, P., Borisenko, N. G., Giulietti, D., Migliorati, M., Rosmej, O., Zahter, S., and Consoli, F.

Subjects
Physics - Instrumentation and Detectors
Abstract

Time-Of-Flight (TOF) technique coupled with semiconductor detectors is a powerful instrument to provide real-time characterization of ions accelerated because of laser-matter interactions. Nevertheless, the presence of strong electromagnetic pulses (EMPs) generated during the interactions, can severely hinder its employment. For this reason, the diagnostic system must be designed to have high EMP shielding. Here we present a new advanced prototype of detector, developed at ENEA-Centro Ricerche Frascati (Italy), with a large area (15 mm x 15 mm) polycrystalline diamond sensor having 150 microns thickness. The tailored detector design and testing ensure high sensitivity and, thanks to the fast temporal response, high energy resolution of the reconstructed ion spectrum. The detector was offline calibrated and then successfully tested during an experimental campaign carried out at the PHELIX laser facility at GSI (Germany). The high rejection to EMP fields was demonstrated and suitable calibrated spectra of the accelerated protons were obtained.

Published
2021

4. Diagnosis and management of acquired aplastic anemia in childhood. Guidelines from the Marrow Failure Study Group of the Pediatric Haemato-Oncology Italian Association (AIEOP)

Author

Guarina, A., Farruggia, P., Mariani, E., Saracco, P., Barone, A., Onofrillo, D., Cesaro, S., Angarano, R., Barberi, W., Bonanomi, S., Corti, P., Crescenzi, B., Dell'Orso, G., De Matteo, A., Giagnuolo, G., Iori, A.P., Ladogana, S., Lucarelli, A., Lupia, M., Martire, B., Mastrodicasa, E., Massaccesi, E., Arcuri, L., Giarratana, M.C., Menna, G., Miano, M., Notarangelo, L.D., Palazzi, G., Palmisani, E., Pestarino, S., Pierri, F., Pillon, M., Ramenghi, U., Russo, G., Saettini, F., Timeus, F., Verzegnassi, F., Zecca, M., Fioredda, F., and Dufour, C.

Published
2024
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5. uRANIA-V: an innovative solution for neutron detection in homeland security

Author

Farinelli, R., Balossino, I., Bencivenni, G., Cibinetto, G., Felici, G., Fiore, S., Garzia, I., Gatta, M., Giovannetti, M., Hall-Wilton, R., Lai, C. C., Lavezzi, L., Mezzadri, G., Morello, G., Paoletti, E., Papalino, G., Pietropaolo, A., Pillon, M., Lener, M. Poli, Robinson, L., Scodeggio, M., and Svensson, P. O.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment, Nuclear Experiment
Abstract

Detection of neutrons is becoming of the utmost importance, especially in the studies of radioactive waste and in homeland security applications. The crisis of 3He availability has required the development of innovative techniques. One solution is to develop light gas detectors for neutron counting to be used as portals for ports and airports. The neutron is converted on the Boron-coated cathode, releasing a charged particle, whose passage can be identified by the gas detector. While several technologies have been deployed in the past, the project {\mu}RANIA-V ( {\mu}Rwell Advanced Neutron Identification Apparatus) aims to detect thermal neutrons by means of the {\mu}Rwell technology, an innovative gas detector. The goal is to produce tiles to operate as portals in homeland security or for radioactive waste management. The technological transfer towards the industry has started, thus the production can be cost-effective also owing to a construction process relatively easier compared to similar apparatus. By reading directly the signals from the amplification stage, the neutrons can be counted with simplified electronics further reducing the total cost. In this paper, the project will be described, with details on the {\mu}Rwell technology and on the neutron counting, on the test beam performed, and on the future plans., Comment: ANIMMA 2021 conference proceeding

Published
2021
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6. Radiation study of Lead Fluoride crystals

Author

Cemmi, A., Colangeli, A., D'orsi, B., Di Sarcina, I., Diociaiuti, E., Fiore, S., Paesani, D., Pillon, M., Saputi, A., Sarra, I., and Tagnani, D.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

Lead fluoride (PbF$_2$) crystals represent an excellent and relatively innovative choice for high resolution electromagnetic calorimeters with high granularity and fast timing for high intensity environments. For this reason two PbF$_2$ crystals, sized $5\times 5 \times 40 $ mm$^3$, were irradiated with $^{60}$Co photons up to $\sim 4$ Mrad and with 14 MeV neutrons up to a $10^{13}$ n/cm$^2$ total fluence. Their loss in transmittance was evaluated at different steps of the photon and neutron irradiation campaign, resulting in a total of 30% loss above 350 nm. With crystals always kept in dark conditions, natural and thermal annealing, as well as optical bleaching with 400 nm light, were performed on the irradiated specimens, resulting in a partial recovery of their original optical characteristics.

Published
2021
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9. Design status of the neutron and gamma-ray diagnostics for the Divertor Tokamak Test facility

Author

Marocco, D, Angelone, M, Belli, F, Caruggi, F, Croci, G, Esposito, B, Gandolfo, G, Gorini, G, Grosso, G, Nocente, M, Panza, F, Pillon, M, Pompili, F, Rigamonti, D, Rocchi, G, Scionti, J, Tardocchi, M, Marocco D., Angelone M., Belli F., Caruggi F., Croci G., Esposito B., Gandolfo G., Gorini G., Grosso G., Nocente M., Panza F., Pillon M., Pompili F., Rigamonti D., Rocchi G., Scionti J., Tardocchi M., Marocco, D, Angelone, M, Belli, F, Caruggi, F, Croci, G, Esposito, B, Gandolfo, G, Gorini, G, Grosso, G, Nocente, M, Panza, F, Pillon, M, Pompili, F, Rigamonti, D, Rocchi, G, Scionti, J, Tardocchi, M, Marocco D., Angelone M., Belli F., Caruggi F., Croci G., Esposito B., Gandolfo G., Gorini G., Grosso G., Nocente M., Panza F., Pillon M., Pompili F., Rigamonti D., Rocchi G., Scionti J., and Tardocchi M.

Abstract

In the frame of the design activities of the Divertor Tokamak Test (DTT) facility the development of a comprehensive set of neutron and gamma-ray diagnostics is on-going in order to enable measurements of: neutron yield, neutron yield rate, neutron emissivity over a poloidal section through the plasma; neutron emission spectrum; runaway electrons induced bremsstrahlung radiation and gamma-ray emission from reactions between fast ions and plasma impurities. The present paper provides an overview of the DTT neutron and gamma-ray diagnostics and describes the present status of their design including main components and interfaces, detector types and performances.

Published
2024

10. Results of the first user program on the Homogenous Thermal Neutron Source HOTNES (ENEA / INFN)

Author

Sperduti, A., Angelone, M., Bedogni, R., Claps, G., Diociaiuti, E., Domingo, C., Donghia, R., Giovannella, S., Gomez-Ros, J. M., Irazola-Rosales, L., Loreti, S., Monti, V., Miscetti, S., Murtas, F., Pagano, G., Pillon, M., Pilotti, R., Pola, A., Romero-Expósito, M., Sánchez-Doblado, F., Sans-Planell, O., Scherillo, A., Soldani, E., Treccani, M., and Pietropaolo, A.

Subjects
Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

The HOmogeneous Thermal NEutron Source (HOTNES) is a new type of thermal neutron irradiation assembly developed by the ENEA-INFN collaboration. The facility is fully characterized in terms of neutron field and dosimetric quantities, by either computational and experimental methods. This paper reports the results of the first "HOTNES users program", carried out in 2016, and covering a variety of thermal neutron active detectors such as scintillators, solid-state, single crystal diamond and gaseous detectors.

Published
2018
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11. Upgrade of compact neutron spectrometer for high flux environments

Author

Osipenko, M., Bellucci, A., Ceriale, V., Corsini, D., Gariano, G., Gatti, F., Girolami, M., Minutoli, S., Panza, F., Pillon, M., Ripani, M., and Trucchi, D. M.

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

In this paper a new version of Li6-based neutron spectrometer for high flux environments is described. The new spectrometer was built with commercial single crystal Chemical Vapour Deposition diamonds of electronic grade. These crystals feature better charge collection as well as higher radiation hardness. Ohmic metal contacts were deposited on the diamonds suppressing build-up of space charge observed in the previous prototypes. New passive preamplification of signal at detector side was implemented to improve the resolution. This preamplification is based on RF transformer not sensitive to high neutron flux. Compact mechanical design allowed to reduce detector size to a tube of 1 cm diameter and 13 cm long. The spectrometer was tested in thermal column of TRIGA reactor and at DD neutron generator. The test results indicate an energy resolution of 72 keV (RMS) and coincidence timing resolution of 68 ps (RMS). The measured data are in agreement with Geant4 simulations except for larger energy loss tail presumably related to imperfections of metal contacts and glue expansion., Comment: 18 pages, 10 figures

Published
2017
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12. Irradiation study of UV Silicon Photomultipliers for the Mu2e Calorimeter

Author

Baccaro, S., Cemmi, A., Cordelli, M., Diociaiuti, E., Donghia, R., Ferrari, A., Giovannella, S., Miscetti, S., Müller, S., Pillon, M., and Sarra, I.

Subjects
Physics - Instrumentation and Detectors
Abstract

The Mu2e calorimeter is composed of 1400 un-doped CsI crystals, coupled to large area UV extended Silicon Photomultipliers (SiPMs), arranged in two annular disks. This calorimeter has to provide precise information on energy, timing and position resolutions. It should also be fast enough to handle the high rate background and it must operate and survive in the high radiation environment. Simulation studies estimated that, in the highest irradiated regions, each photo-sensor will absorb a dose of 20 krad and will be exposed to a neutron fluency of 5.5x10^11 n_(1MeV)/cm^2 in three years of running, with a safety factor of 3 included. At the end of 2015, we have concluded an irradiation campaign at the Frascati Neutron Generator (FNG, Frascati, Italy) measuring the response of two different 16 array models from Hamamatsu, which differ for the protection windows and a SiPM from FBK. In 2016, we have carried out two additional irradiation campaigns with neutrons and photons at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR, Dresden, Germany) and at the Calliope gamma irradiation facility at ENEA-Casaccia, respectively. A negligible increment of the leakage current and no gain change have been observed with the dose irradiation. On the other hand, at the end of the neutron irradiation, the gain does not show large changes whilst the leakage current increases by around a factor of 2000. In these conditions, the too high leakage current makes problematic to bias the SiPMs, thus requiring to cool them down to a running temperature of ~0 {\deg}C.

Published
2017
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17. Response of diamond detector sandwich to 14 MeV neutrons

Author

Osipenko, M., Ripani, M., Ricco, G., Caiffi, B., Pompili, F., Pillon, M., Verona-Rinati, G., and Cardarelli, R.

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

In this paper we present the measurement of the response of 50 $\mu$m thin diamond detectors to 14 MeV neutrons. Such neutrons are produced in fusion reactors and are of particular interest for ITER neutron diagnostics. Among semiconductor detectors diamond has properties most appropriate for harsh radiation and temperature conditions of a fusion reactor. However, 300-500 $\mu$m thick diamond detectors suffer significant radiation damage already at neutron fluences of the order of $10^{14}$ n/cm$^2$. It is expected that a 50 $\mu$m thick diamond will withstand a fluence of $>10^{16}$ n/cm$^2$. We tested two 50 $\mu$m thick single crystal CVD diamonds, stacked to form a "sandwich" detector for coincidence measurements. The detector measured the conversion of 14 MeV neutrons, impinging on one diamond, into $\alpha$ particles which were detected in the second diamond in coincidence with nuclear recoil. For $^{12}C(n,\alpha)^{9}Be$ reaction the total energy deposited in the detector gives access to the initial neutron energy value. The measured 14 MeV neutron detection sensitivity through this reaction by a detector of effective area 3$\times$3 mm$^2$ was $5\times 10^{-7}$ counts cm$^2$/n. This value is in good agreement with Geant4 simulations. The intrinsic energy resolution of the detector was found to be 240 keV FWHM which adds only 10 % to ITER's 14 MeV neutron energy spread., Comment: submitted in NIM A

Published
2015
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18. Neutron spectrometer for fast nuclear reactors

Author

Osipenko, M., Ripani, M., Ricco, G., Caiffi, B., Pompili, F., Pillon, M., Angelone, M., Verona-Rinati, G., Cardarelli, R., Mila, G., and Argiro, S.

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

In this paper we describe the development and first tests of a neutron spectrometer designed for high flux environments, such as the ones found in fast nuclear reactors. The spectrometer is based on the conversion of neutrons impinging on $^6$Li into $\alpha$ and $t$ whose total energy comprises the initial neutron energy and the reaction $Q$-value. The $^6$LiF layer is sandwiched between two CVD diamond detectors, which measure the two reaction products in coincidence. The spectrometer was calibrated at two neutron energies in well known thermal and 3 MeV neutron fluxes. The measured neutron detection efficiency varies from 4.2$\times 10^{-4}$ to 3.5$\times 10^{-8}$ for thermal and 3 MeV neutrons, respectively. These values are in agreement with Geant4 simulations and close to simple estimates based on the knowledge of the $^6$Li(n,$\alpha$)$t$ cross section. The energy resolution of the spectrometer was found to be better than 100 keV when using 5 m cables between the detector and the preamplifiers., Comment: submitted to NIM

Published
2015
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19. Test of a prototype neutron spectrometer based on diamond detectors in a fast reactor

Author

Osipenko, M., Pompili, F., Ripani, M., Pillon, M., Ricco, G., Caiffi, B., Cardarelli, R., Verona-Rinati, G., and Argiro, S.

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

A prototype of neutron spectrometer based on diamond detectors has been developed. This prototype consists of a $^6$Li neutron converter sandwiched between two CVD diamond crystals. The radiation hardness of the diamond crystals makes it suitable for applications in low power research reactors, while a low sensitivity to gamma rays and low leakage current of the detector permit to reach good energy resolution. A fast coincidence between two crystals is used to reject background. The detector was read out using two different electronic chains connected to it by a few meters of cable. The first chain was based on conventional charge-sensitive amplifiers, the other used a custom fast charge amplifier developed for this purpose. The prototype has been tested at various neutron sources and showed its practicability. In particular, the detector was calibrated in a TRIGA thermal reactor (LENA laboratory, University of Pavia) with neutron fluxes of $10^8$ n/cm$^2$s and at the 3 MeV D-D monochromatic neutron source named FNG (ENEA, Rome) with neutron fluxes of $10^6$ n/cm$^2$s. The neutron spectrum measurement was performed at the TAPIRO fast research reactor (ENEA, Casaccia) with fluxes of 10$^9$ n/cm$^2$s. The obtained spectra were compared to Monte Carlo simulations, modeling detector response with MCNP and Geant4., Comment: ANIMMA 2015 Conference proceedings, 20-24 April 2015, Lisbon, Portugal

Published
2015

20. Proton recoil telescope based on diamond detectors for measurement of fusion neutrons

Author

Caiffi, B., Osipenko, M., Ripani, M., Pillon, M., and Taiuti, M.

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

Diamonds are very promising candidates for the neutron diagnostics in harsh environments such as fusion reactor. In the first place this is because of their radiation hardness, exceeding that of Silicon by an order of magnitude. Also, in comparison to the standard on-line neutron diagnostics (fission chambers, silicon based detectors, scintillators), diamonds are less sensitive to $\gamma$ rays, which represent a huge background in fusion devices. Finally, their low leakage current at high temperature suppresses the detector intrinsic noise. In this talk a CVD diamond based detector has been proposed for the measurement of the 14 MeV neutrons from D-T fusion reaction. The detector was arranged in a proton recoil telescope configuration, featuring a plastic converter in front of the sensitive volume in order to induce the (n,p) reaction. The segmentation of the sensitive volume, achieved by using two crystals, allowed to perform measurements in coincidence, which suppressed the neutron elastic scattering background. A preliminary prototype was assembled and tested at FNG (Frascati Neutron Generator, ENEA), showing promising results regarding efficiency and energy resolution., Comment: ANIMMA 2015 Conference proceedings, 20-24 April 2015, Lisbon, Portugal

Published
2015
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26. Further investigations on the Neutron Flux Generation in a Plasma Discharge Electrolytic Cell

Author

Faccini, R., Pilloni, A., Polosa, A. D., Angelone, M., Castagna, E., Lecci, S., Loreti, S., Pietropaolo, A., Pillon, M., Sansovini, M., Sarto, F., Violante, V., Bedogni, R., and Esposito, A.

Subjects
Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

Our recent paper on the "Search for Neutron Flux Generation in a Plasma Discharge Electrolytic Cell" [1] has as main goal the validation of the experiment in Ref.[2]. As a follow-up, Ref.[3] moves a set of objections on our procedure and presents argumentations on why the experiments should not yield the same results. We collect here additional material and calculations that contribute to understanding the observed discrepancies. Furthermore we prove that the absence of signals from Indium activation detectors reported also for the experiment of Ref.[2] is a clear indication that neutron production does not occur. [1] R.Faccini et al arXiv:1310.4749 [2] D.Cirillo et al, Key Engineering Materials 495, 104 (2012). [3] A.Widom et al. arXiv:1311.2447, Comment: 5 pages, 3 figures

Published
2014

27. Pure Beta Emitters in Water Samples from Neutron Irradiation Facilities: Activity Determination Via Vacuum Distillation and Liquid Scintillation Counting

Author

Masci D., Ferri D., Gandolfo G., Lepore L., Contessa G.M., Pietropaolo A., Pillon M., and Marzo G.A.

Subjects
liquid scintillation counting, tritium, distillation, neutron generator, Physics, QC1-999
Abstract

In the decommissioning of nuclear facilities, it is necessary to assess the radioactivity inventory for waste classification and management. For nuclear fusion experiments or accelerator-driven neutron sources, the main contribution to the radiological inventory comes from activation products and tritium. When water is used as coolant of components, it may be activated by neutrons with the consequent production of tritium, and short-lived oxygen and nitrogen isotopes. In most cases several chemical elements may be in solution or suspension in water, because of metallic pipes corrosion when occurring, or functional reasons, e.g. chemical conditioning, addition of antifreeze agent, etc. In this case other activation products could be present and need to be characterized. In this case study, a sample of the coolant of the ENEA Frascati Neutron Generator (FNG) has been radiologically, chemically and physically characterized. In such a facility, during the operation, a beam of deuterons is accelerated up to 300 keV and impacts on a tritiated target for producing 14 MeV neutrons exploiting the fusion reaction T(d,n)α. To avoid overheating in the area around the target, a water-cooling loop is used. After several years of operation, a sample of the fluid has been extracted to undergo a qualitative and quantitative analysis of the radionuclides inventory. Gamma spectrometry has not shown any presence of gamma emitters. On the other hand, Liquid Scintillation Counting (LSC) has provided evidence of the presence of beta emitters. It is known that tritium is expected to occur in the sample because of releases from the tritiated titanium target. This work concerns the development of a method to discriminate the tritium contribution with respect to the total beta activity within the FNG coolant. Since it is known that an unspecified percentage of an unknown anticorrosive agent was added to the water coolant, vacuum distillation has been used to extract purified water (containing only tritium) from the coolant sample leaving any (activated) non-volatile compound in the undistilled fraction. After distillation, any fraction has been investigated by Raman spectroscopy, to determine: a) the chemical composition of the colored anticorrosive agent, b) the efficiency of the separation. Afterwards, both fractions have been analysed by means of LSC, and results showed that the main contribution to sample activity is due to tritium and the activity values are consistent with the theoretical H atomic concentration in both fractions.

Published
2023
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28. Search for Neutron Flux Generation in a Plasma Discharge Electrolytic Cell

Author

Faccini, R., Pilloni, A., Polosa, A. D., Angelone, M., Castagna, E., Lecci, S., Pietropaolo, A., Pillon, M., Sansovini, M., Sarto, F., Violante, V., Bedogni, R., and Esposito, A.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment, Nuclear Experiment, Physics - Plasma Physics
Abstract

Following some recent unexpected hints of neutron production in setups like high-voltage atmospheric discharges and plasma discharges in electrolytic cells, we present a measurement of the neutron flux in a configuration similar to the latter. We use two different types of neutron detectors, poly-allyl-diglicol-carbonate (PADC, aka CR-39) tracers and Indium disks. At 95% C.L. we provide an upper limit of 1.5 neutrons cm^-2 s^-1 for the thermal neutron flux at ~5 cm from the center of the cell. Allowing for a higher energy neutron component the largest allowed flux is 64 neutrons cm^-2 s^-1. This upper limit is two orders of magnitude smaller than what previously claimed in an electrolytic cell plasma discharge experiment. Furthermore the behavior of the CR-39 is discussed to point our possible sources of spurious signals., Comment: 4 pages, 3 figures

Published
2013
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29. IRIDE White Book, An Interdisciplinary Research Infrastructure based on Dual Electron linacs&lasers

Author

Alesini, D., Alessandroni, M., Anania, M. P., Andreas, S., Angelone, M., Arcovito, A., Arnesano, F., Artioli, M., Avaldi, L., Babusci, D., Bacci, A., Balerna, A., Bartalucci, S., Bedogni, R., Bellaveglia, M., Bencivenga, F., Benfatto, M., Biedron, S., Bocci, V., Bolognesi, M., Bolognesi, P., Boni, R., Bonifacio, R., Boscolo, M., Boscherini, F., Bossi, F., Broggi, F., Buonomo, B., Calo', V., Catone, D., Capogni, M., Capone, M., Castellano, M., Castoldi, A., Catani, L., Cavoto, G., Cherubini, N., Chirico, G., Cestelli-Guidi, M., Chiadroni, E., Chiarella, V., Cianchi, A., Cianci, M., Cimino, R., Ciocci, F., Clozza, A., Collini, M., Colo', G., Compagno, A., Contini, G., Coreno, M., Cucini, R., Curceanu, C., Dabagov, S., Dainese, E., Davoli, I., Dattoli, G., De Caro, L., De Felice, P., Della Longa, S., Monache, G. Delle, De Spirito, M., Di Cicco, A., Di Donato, C., Di Gioacchino, D., Di Giovenale, D., Di Palma, E., Di Pirro, G., Dodaro, A., Doria, A., Dosselli, U., Drago, A., Escribano, R., Esposito, A., Faccini, R., Ferrari, A., Ferrario, M., Filabozzi, A., Filippetto, D., Fiori, F., Frasciello, O., Fulgentini, L., Gallerano, G. P., Gallo, A., Gambaccini, M., Gatti, C., Gatti, G., Gauzzi, P., Ghigo, A., Ghiringhelli, G., Giannessi, L., Giardina, G., Giannini, C., Giorgianni, F., Giovenale, E., Gizzi, L., Guaraldo, C., Guazzoni, C., Gunnella, R., Hatada, K., Ivashyn, S., Jegerlehner, F., Keeffe, P. O., Kluge, W., Kupsc, A., Iannone, M., Labate, L., Sandri, P. Levi, Lombardi, V., Londrillo, P., Loreti, S., Losacco, M., Lupi, S., Macchi, A., Magazu', S., Mandaglio, G., Marcelli, A., Margutti, G., Mariani, C., Mariani, P., Marzo, G., Masciovecchio, C., Masjuan, P., Mattioli, M., Mazzitelli, G., Merenkov, N. P., Michelato, P., Migliardo, F., Migliorati, M., Milardi, C., Milotti, E., Milton, S., Minicozzi, V., Mobilio, S., Morante, S., Moricciani, D., Mostacci, A., Muccifora, V., Murtas, F., Musumeci, P., Nguyen, F., Orecchini, A., Organtini, G., Ottaviani, P. L., Pace, E., Paci, M., Pagani, C., Pagnutti, S., Palmieri, V., Palumbo, L., Panaccione, G. C., Papadopoulos, C. F., Papi, M., Passera, M., Pasquini, L., Pedio, M., Perrone, A., Petralia, A., Petrillo, C., Petrillo, V., Pillon, M., Pierini, P., Pietropaolo, A., Polosa, A. D., Pompili, R., Portoles, J., Prosperi, T., Quaresima, C., Quintieri, L., Rau, J. V., Reconditi, M., Ricci, A., Ricci, R., Ricciardi, G., Ripiccini, E., Romeo, S., Ronsivalle, C., Rosato, N., Rosenzweig, J. B., Rossi, G., Rossi, A. A., Rossi, A. R., Rossi, F., Russo, D., Sabatucci, A., Sabia, E., Sacchetti, F., Salducco, S., Sannibale, F., Sarri, G., Scopigno, T., Serafini, L., Sertore, D., Shekhovtsova, O., Spassovsky, I., Spadaro, T., Spataro, B., Spinozzi, F., Stecchi, A., Stellato, F., Surrenti, V., Tenore, A., Torre, A., Trentadue, L., Turchini, S., Vaccarezza, C., Vacchi, A., Valente, P., Venanzoni, G., Vescovi, S., Villa, F., Zanotti, G., Zema, N., and Zobov, M.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment, Physics - Accelerator Physics
Abstract

This report describes the scientific aims and potentials as well as the preliminary technical design of IRIDE, an innovative tool for multi-disciplinary investigations in a wide field of scientific, technological and industrial applications. IRIDE will be a high intensity 'particle factory', based on a combination of a high duty cycle radio-frequency superconducting electron linac and of high energy lasers. Conceived to provide unique research possibilities for particle physics, for condensed matter physics, chemistry and material science, for structural biology and industrial applications, IRIDE will open completely new research possibilities and advance our knowledge in many branches of science and technology. IRIDE will contribute to open new avenues of discoveries and to address most important riddles: What does matter consist of? What is the structure of proteins that have a fundamental role in life processes? What can we learn from protein structure to improve the treatment of diseases and to design more efficient drugs? But also how does an electronic chip behave under the effect of radiations? How can the heat flow in a large heat exchanger be optimized? The scientific potential of IRIDE is far reaching and justifies the construction of such a large facility in Italy in synergy with the national research institutes and companies and in the framework of the European and international research. It will impact also on R&D work for ILC, FEL, and will be complementarity to other large scale accelerator projects. IRIDE is also intended to be realized in subsequent stages of development depending on the assigned priorities., Comment: 270 pages

Published
2013

30. Properties of para-terphenyl as detector for alpha, beta and gamma radiation

Author

Angelone, M., Battistoni, G., Bellini, F., Bocci, V., Collamati, F., De Lucia, E., Faccini, R., Ferroni, F., Fiore, S., Marafini, M., Materazzo, D., Mattei, I., Morganti, S., Patera, V., Piersanti, L., Pillon, M., Recchia, L., Russomando, A., Sarti, A., Sciubba, A., Camillocci, E. Solfaroli, and Voena, C.

Subjects
Physics - Instrumentation and Detectors, Physics - Medical Physics
Abstract

Organic scintillators are often chosen as radiation detectors for their fast decay time and their low Z, while inorganic ones are used when high light ields are required. In this paper we show that a para-terphenyl based detector has a blend of properties of the two categories that can be optimal for energy and position measurements of low energy charged particles. On 0.1% diphenylbutadiene doped para-terphenyl samples we measure a light yield 3.5+-0.2 times larger than a typical organic scintillator (EJ-200), and a rejection power for 660 keV photons, with respect to electrons of the same energy, ranging between 3-11%, depending on the signal threshold. We also measure a light attenuation length = 4.73+-0.06 mm and we demonstrate that, with the measurements performed in this paper, a simulation based on FLUKA can properly reproduce the measured spectra., Comment: 5 pages, 6 figures

Published
2013
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31. New thick silicon carbide detectors: Response to 14 MeV neutrons and comparison with single-crystal diamonds

Author

Rebai, M., Rigamonti, D., Cancelli, S., Croci, G., Gorini, G., Perelli Cippo, E., Putignano, O., Tardocchi, M., Altana, C., Angelone, M., Borghi, G., Boscardin, M., Ciampi, C., Cirrone, G.A.P., Fazzi, A., Giove, D., Labate, L., Lanzalone, G., La Via, F., Loreti, S., Muoio, A., Ottanelli, P., Pasquali, G., Pillon, M., Puglia, S.M.R., Santangelo, A., Trifiro, A., and Tudisco, S.

Published
2019
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38. Silicon Photo-Multiplier radiation hardness tests with a beam controlled neutron source

Author

Angelone, M., Pillon, M., Faccini, R., Pinci, D., Baldini, W., Calabrese, R., Cibinetto, G., Ramusino, A. Cotta, Malaguti, R., and Pozzati, M.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

We report radiation hardness tests performed at the Frascati Neutron Generator on silicon Photo-Multipliers, semiconductor photon detectors built from a square matrix of avalanche photo-diodes on a silicon substrate. Several samples from different manufacturers have been irradiated integrating up to 7x10^10 1-MeV-equivalent neutrons per cm^2. Detector performances have been recorded during the neutron irradiation and a gradual deterioration of their properties was found to happen already after an integrated fluence of the order of 10^8 1-MeV-equivalent neutrons per cm^2., Comment: 7 pages, 6 figures, Submitted to Nucl. Inst. Meth. A

Published
2010
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49. Dual Control of Host Actin Polymerization by a Legionella Effector Pair.

Author

Pillon, M., Michard, C., Baïlo, N., Bougnon, J., Picq, K., Dubois, O., Andrea, C., Attaiech, L., Daubin, V., Jarraud, S., Kay, E., and Doublet, P.

Subjects
*ACTIN, *LEGIONELLA, *LEGIONELLA pneumophila, *BACTERIAL proteins, *CYTOSKELETON
Abstract

Host actin cytoskeleton is often targeted by pathogenic bacteria through the secretion of effectors. Legionella pneumophila virulence relies on the injection of the largest known arsenal of bacterial proteins, over 300 Dot/Icm type 4 secretion system effectors, into the host cytosol. Here, we define the functional interactions between VipA and LegK2, two effectors with antagonistic activities towards actin polymerization that have been proposed to interfere with the endosomal pathway. We confirmed the prominent role of LegK2 effector in Legionella infection, as the deletion of legK2 results in defects in the inhibition of actin polymerization at the Legionella-containing vacuole, as well as in endosomal escape of bacteria and subsequent intracellular replication. More importantly, we observed the restoration of the ΔlegK2 mutant defects, upon deletion of vipA gene, making LegK2/VipA a novel example of effector-effector suppression pair that targets the actin cytoskeleton and whose functional interaction impacts L. pneumophila virulence. We demonstrated that LegK2 and VipA do not modulate each other's activity in a "metaeffector" relationship. Instead, the antagonistic activities of the LegK2/VipA effector pair would target different substrates, Arp2/3 for LegK2 and G-actin for VipA, to temporally control actin polymerization at the LCV and interfere with phagosome maturation and endosome recycling, thus contributing to the intracellular life cycle of the bacterium. Strikingly, the functional interaction between LegK2 and VipA is consolidated by an evolutionary history that has refined the best effector repertoire for the benefit of L. pneumophila virulence. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Enhanced performance in fusion plasmas through turbulence suppression by megaelectronvolt ions

Author

Mazzi, S., Garcia, J., Zarzoso, D., Kazakov, Y., Ongena, J., Dreval, M., Nocente, M., Stancar, Z., Szepesi, G., Eriksson, J., Sahlberg, A., Benkadda, S., Abid, N., Abraham, K., Abreu, P., Adabonyan, O., Adrich, P., Afanasev, V., Afzal, M., Ahlgren, T., Aho-Mantila, L., Aiba, N., Airila, M., Akhtar, M., Albanese, R., Alderson-Martin, M., Alegre, D., Aleiferis, S., Aleksa, A., Alekseev, A., Alessi, E., Aleynikov, P., Algualcil, J., Ali, M., Allinson, M., Alper, B., Alves, E., Ambrosino, G., Ambrosino, R., Amosov, V., Andersson Sunden, E., Andrew, P., Angelini, B., Angioni, C., Antoniou, I., Appel, L., Appelbee, C., Aria, S., Ariola, M., Artaserse, G., Arter, W., Artigues, V., Asakura, N., Ash, A., Ashikawa, N., Aslanyan, V., Astrain, M., Asztalos, O., Auld, D., Auriemma, F., Austin, Y., Avotina, L., Aymerich, E., Baciero, A., Bairaktaris, F., Balbin, J., Balbinot, L., Balboa, I., Balden, M., Balshaw, C., Balshaw, N., Bandaru, V., Banks, J., Baranov, Y., Barcellona, C., Barnard, A., Barnard, M., Barnsley, R., Barth, A., Baruzzo, M., Barwell, S., Bassan, M., Batista, A., Batistoni, P., Baumane, L., Bauvir, B., Baylor, L., Beaumont, P., Beckett, D., Begolli, A., Beidler, M., Bekris, N., Beldishevski, M., Belli, E., Belli, F., Belonohy, E., Ben Yaala, M., Benayas, J., Bentley, J., Bergsaker, H., Bernardo, J., Bernert, M., Berry, M., Bertalot, L., Betar, H., Beurskens, M., Bickerton, S., Bieg, B., Bielecki, J., Bierwage, A., Biewer, T., Bilato, R., Bílkova, P., Birkenmeier, G., Bishop, H., Bizarro, J., Blackburn, J., Blanchard, P., Blatchford, P., Bobkov, V., Boboc, A., Bohm, P., Bohm, T., Bolshakova, I., Bolzonella, T., Bonanomi, N., Bonfiglio, D., Bonnin, X., Bonofiglo, P., Boocock, S., Booth, A., Booth, J., Borba, D., Borodin, D., Borodkina, I., Boulbe, C., Bourdelle, C., Bowden, M., Boyd, K., Bozicevic Mihalic, I., Bradnam, S., Braic, V., Brandt, L., Bravanec, R., Breizman, B., Brett, A., Brezinsek, S., Brix, M., Bromley, K., Brown, B., Brunetti, D., Buckingham, R., Buckley, M., Budny, R., Buermans, J., Bufferand, H., Buratti, P., Burgess, A., Buscarino, A., Busse, A., Butcher, D., Cal, E., Calabro, G., Calacci, L., Calado, R., Camenen, Y., Canal, G., Cannas, B., Cappelli, M., Carcangiu, S., Card, P., Cardinali, A., Carman, P., Carnevale, D., Carr, M., Carralero, D., Carraro, L., Carvalho, I., Carvalho, P., Casiraghi, I., Casson, F., Castaldo, C., Catalan, J., Catarino, N., Causa, F., Cavedon, M., Cecconello, M., Challis, C., Chamberlain, B., Chang, C., Chankin, A., Chapman, B., Chernyshova, M., Chiariello, A., Chmielewski, P., Chomiczewska, A., Chone, L., Ciraolo, G., Ciric, D., Citrin, J., Ciupinski, t., Clark, M., Clarkson, R., Clements, C., Cleverly, M., Coad, J., Coates, P., Cobalt, A., Coccorese, V., Coelho, R., Coenen, J., Coffey, I., Colangeli, A., Colas, L., Collins, C., Collins, J., Collins, S., Conka, D., Conroy, S., Conway, B., Conway, N., Coombs, D., Cooper, P., Cooper, S., Corradino, C., Corrigan, G., Coster, D., Cox, P., Craciunescu, T., Cramp, S., Crapper, C., Craven, D., Craven, R., Crialesi Esposito, M., Croci, G., Croft, D., Croitoru, A., Crombe, K., Cronin, T., Cruz, N., Crystal, C., Cseh, G., Cufar, A., Cullen, A., Curuia, M., Czarski, T., Dabirikhah, H., Dal Molin, A., Dale, E., Dalgliesh, P., Dalley, S., Dankowski, J., David, P., Davies, A., Davies, S., Davis, G., Dawson, K., Dawson, S., Day, I., De Bock, M., De Temmerman, G., De Tommasi, G., Deakin, K., Deane, J., Dejarnac, R., Del Sarto, D., Delabie, E., Del-Castillo-Negrete, D., Dempsey, A., Dendy, R., Devynck, P., Di Siena, A., Di Troia, C., Dickson, T., Dinca, P., Dittmar, T., Dobrashian, J., Doerner, R., Donne, A., Dorling, S., Dormido-Canto, S., Douai, D., Dowson, S., Doyle, R., Drewelow, P., Drews, P., Drummond, G., Duckworth, P., Dudding, H., Dumont, R., Dumortier, P., Dunai, D., Dunatov, T., Dunne, M., Duran, I., Durodie, F., Dux, R., Dvornova, A., Eastham, R., Edwards, J., Eich, T., Eichorn, A., Eidietis, N., Eksaeva, A., Haroun, H., Ellwood, G., Elsmore, C., Embreus, O., Emery, S., Ericsson, G., Eriksson, B., Eriksson, F., Eriksson, L., Ertmer, S., Esquembri, S., Esquisabel, A., Estrada, T., Evans, G., Evans, S., Fable, E., Fagan, D., Faitsch, M., Falessi, M., Fanni, A., Farahani, A., Farquhar, I., Fasoli, A., Faugeras, B., Fazinie, S., Felici, F., Felton, R., Fernandes, A., Fernandes, H., Ferrand, J., Ferreira, D., Ferreira, J., Ferro, G., Fessey, J., Ficker, O., Field, A., Figueiredo, A., Figueiredo, J., Fil, A., Fil, N., Finburg, P., Fiorucci, D., Fischer, U., Fishpool, G., Fittill, L., Fitzgerald, M., Flammini, D., Flanagan, J., Flinders, K., Foley, S., Fonnesu, N., Fontana, M., Fontdecaba, J., Forbes, S., Formisano, A., Fornal, T., Fortuna, L., Fortuna-Zalesna, E., Fortune, M., Fowler, C., Fransson, E., Frassinetti, L., Freisinger, M., Fresa, R., Fridstrom, R., Frigione, D., Fülop, T., Furseman, M., Fusco, V., Futatani, S., Gadariya, D., Gal, K., Galassi, D., Gafezka, K., Galeani, S., Gallart, D., Galvao, R., Gao, Y., Garcia-Munoz, M., Gardener, M., Garzotti, L., Gaspar, J., Gatto, R., Gaudio, P., Gear, D., Gebhart, T., Gee, S., Gelfusa, M., George, R., Gerasimov, S., Gervasini, G., Gethins, M., Ghani, Z., Gherendi, M., Ghezzi, F., Giacalone, J., Giacomelli, L., Giacometti, G., Gibson, C., Gibson, K., Gil, L., Gillgren, A., Gin, D., Giovannozzi, E., Giroud, C., Glen, R., Gloggler, S., Goff, J., Gohil, P., Goloborodko, V., Gomes, R., Goncalves, B., Goniche, M., Goodyear, A., Gore, S., Gorini, G., Görler, T., Gotts, N., Goulding, R., Gow, E., Graham, B., Graves, J., Greuner, H., Grierson, B., Griffiths, J., Griph, S., Grist, D., Gromelski, W., Groth, M., Grove, R., Gruca, M., Guard, D., Gupta, N., Gurl, C., Gusarov, A., Hackett, L., Hacquin, S., Hager, R., Hagg, L., Hakola, A., Halitovs, M., Hall, S., Hallworth-Cook, S., Ham, C., Hamaguchi, D., Hamed, M., Hamlyn-Harris, C., Hammond, K., Harford, E., Harrison, J., Harting, D., Hatano, Y., Hatch, D., Haupt, T., Hawes, J., Hawkes, N., Hawkins, J., Hayashi, T., Hazael, S., Hazel, S., Heesterman, P., Heidbrink, B., Helou, W., Hemming, O., Henderson, S., Henriques, R., Hepple, D., Herfindal, J., Hermon, G., Hill, J., Hillesheim, J., Hizanidis, K., Hjalmarsson, A., Ho, A., Hobirk, J., Hoenen, O., Hogben, C., Hollingsworth, A., Hollis, S., Hollmann, E., Hoelzl, M., Homan, B., Hook, M., Hopley, D., Horacek, J., Horsley, D., Horsten, N., Horton, A., Horton, L., Horvath, L., Hotchin, S., Howell, R., Hu, Z., Huber, A., Huber, V., Huddleston, T., Huijsmans, G., Huynh, P., Hynes, A., Iliasova, M., lmrie, D., lmrísek, M., lngleby, J., Innocente, P., Insulander Björk, K., Isernia, N., lvanova-Stanik, I., lvings, E., Jablonski, S., Jachmich, S., Jackson, T., Jacquet, P., Järleblad, H., Jaulmes, F., Jenaro Rodriguez, J., Jepu, I., Joffrin, E., Johnson, R., Johnson, T., Johnston, J., Jones, C., Jones, G., Jones, L., Jones, N., Jones, T., Joyce, A., Juarez, R., Juvonen, M., Kalnina, P., Kaltiaisenaho, T., Kaniewski, J., Kantor, A., Kappatou, A., Karhunen, J., Karkinsky, D., Kashchuk, Y., Kaufman, M., Kaveney, G., Kazantzidis, V., Keeling, D., Kelly, R., Kempenaars, M., Kennedy, C., Kennedy, D., Kent, J., Khan, K., Khilkevich, E., Kiefer, C., Kilpeläinen, J., Kim, C., Kim, H., Kim, S., King, D., King, R., Kinna, D., Kiptily, V., Kirjasuo, A., Kirov, K., Kirschner, A., kiviniemi, T., Kizane, G., Klas, M., Klepper, C., Klix, A., Kneale, G., Knight, M., Knight, P., Knights, R., Knipe, S., Knolker, M., Knott, S., Kocan, M., Kochl, F., Kodeli, I., Kolesnichenko, Y., Kominis, Y., Kong, M., Korovin, V., Kos, B., Kos, D., Koslowski, H., Kotschenreuther, M., Koubiti, M., Kowalska-Strzeciwilk, E., Koziol, K., Krasilnikov, A., Krasilnikov, V., Kresina, M., Krieger, K., Krishnan, N., Krivska, A., Kruezi, U., Ksiezek, I., Kukushkin, A., Kumpulainen, H., Kurki-Suonio, T., Kurotaki, H., Kwak, S., Kwon, O., Laguardia, L., Lagzdina, E., Lahtinen, A., Laing, A., Lam, N., Lambertz, H., Lane, B., Lane, C., Lascas Neto, E., Laszyriska, E., Lawson, K., Lazaros, A., Lazzaro, E., Learoyd, G., Lee, C., Lee, S., Leerink, S., Leeson, T., Lefebvre, X., Leggate, H., Lehmann, J., Lehnen, M., Leichtle, D., Leipold, F., Lengar, I., Lennholm, M., Leon Gutierrez, E., Lepiavko, B., Leppanen, J., Lerche, E., Lescinskis, A., Lewis, J., Leysen, W., Li, L., Li, Y., Likonen, J., Linsmeier, C., Lipschultz, B., Litaudon, X., Litherland-Smith, E., Liu, F., Loarer, T., Loarte, A., Lobel, R., Lomanowski, B., Lomas, P., Lopez, J., Lorenzini, R., Loreti, S., Losada, U., Loschiavo, V., Loughlin, M., Louka, Z., Lovell, J., Lowe, T., Lowry, C., Lubbad, S., Luce, T., Lucock, R., Lukin, A., Luna, C., Luna, E., Lungaroni, M., Lungu, C., Lunt, T., Lutsenko, V., Lyons, B., Lyssoivan, A., Machielsen, M., Macusova, E., Mäenpää, R., Maggi, C., Maggiora, R., Magness, M., Mahesan, S., Maier, H., Maingi, R., Malinowski, K., Manas, P., Mantica, P., Mantsinen, M., Manyer, J., Manzanares, A., Maquet, P., Marceca, G., Marcenko, N., Marchetto, C., Marchuk, O., 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P., Tan, H., Tanaka, K., Tang, W., Tardocchi, M., Taylor, D., Teimane, A., Telesca, G., Teplova, N., Teplukhina, A., Terentyev, D., Terra, A., Terranova, D., Terranova, N., Testa, D., Tholerus, E., Thomas, J., Thoren, E., Thorman, A., Tierens, W., Tinguely, R., Tipton, A., Todd, H., Tokitani, M., Tolias, P., Tomes, M., Tookey, A., Torikai, Y., Toussaint, U., Tsavalas, P., Tskhakaya, D., Turner, I., Turner, M., Turnyanskiy, M., Tvalashvili, G., Tyrrell, S., Tyshchenko, M., Uccello, A., Udintsev, V., Urbanczyk, G., Vadgama, A., Valcarcel, D., Valisa, M., Vallejos Olivares, P., Vallhagen, O., Valovic, M., Van Eester, D., Varje, J., Vartanian, S., Vasilopoulou, T., Vayakis, G., Vecsei, M., Vega, J., Ventre, S., Verdoolaege, G., Verona, C., Verona Rinati, G., Veshchev, E., Vianello, N., Viezzer, E., Vignitchouk, L., Vila, R., Villari, R., Villone, F., Vincenzi, P., Vinyar, I., Viola, B., Virtanen, A., Vitins, A., Vizvary, Z., Vlad, G., Vlad, M., Vondracek, P., de Vries, P., Wakeling, B., Walkden, N., Walker, M., Walker, R., Walsh, M., Wang, E., Wang, N., Warder, S., Warren, R., Waterhouse, J., Watts, C., Wauters, T., Weckmann, A., Wedderburn Maxwell, H., Weiland, M., Weisen, H., Weiszflog, M., Welch, P., Wendler, N., West, A., Wheatley, M., Wheeler, S., Whitehead, A., Whittaker, D., Widdowson, A., Wiesen, S., Wilkinson, J., Williams, J., Willoughby, D., Wilson, I., Wilson, J., Wilson, T., Wischmeier, M., Wise, P., Withenshaw, G., Withycombe, A., Witts, D., Wojcik-Gargula, A., Wolfrum, E., Wood, R., Woodley, C., Woodley, R., Woods, B., Wright, J., Xu, T., Yadikin, D., Yajima, M., Yakovenko, Y., Yang, Y., Yanling, W., Yanovskiy, V., Young, I., Young, R., Zabolockis, R., Zacks, J., Zagorski, R., Zaitsev, F., Zakharov, L., Zarins, A., Zarzoso Fernandez, D., Zastrow, K., Zayachuk, Y., Zerbini, M., Zhang, W., Zhou, Y., Zlobinski, M., Zocco, A., Zohar, A., Zoita, V., Zoletnik, S., Zotta, V., Zoulias, I., Zwingmann, W., Zychor, I., Physique des interactions ioniques et moléculaires (PIIM), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherche sur la Fusion par confinement Magnétique (IRFM), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Swiss Plasma Center (SPC), Ecole Polytechnique Fédérale de Lausanne (EPFL), Laboratory for Plasma Physics (LPP), Ecole Royale Militaire / Koninklijke Militaire School (ERM KMS), Kharkiv Institute of Physics and Technology (Ukraine), V.N. Karazin Kharkiv National University (KhNU), Dipartimento di Fisica (Milano), Università degli Studi di Milano = University of Milan (UNIMI), Consiglio Nazionale delle Ricerche [Milano] (CNR), Jozef Stefan Institute [Ljubljana] (IJS), Culham Centre for Fusion Energy (CCFE), Department of Physics and Astronomy [Uppsala], Uppsala University, This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014–2018 and 2019–2020 under Grant agreement No 633053., Mazzi, S, Garcia, J, Zarzoso, D, Kazakov, Y, Ongena, J, Dreval, M, Nocente, M, Stancar, Z, Szepesi, G, Eriksson, J, Sahlberg, A, Benkadda, S, Abid, N, Abraham, K, Abreu, P, Adabonyan, O, Adrich, P, Afzal, M, Ahlgren, T, Aho-Mantila, L, Aiba, N, Airila, M, Akhtar, M, Albanese, R, Alderson-Martin, M, Alegre, D, Aleiferis, S, Aleksa, A, Alessi, E, Aleynikov, P, Algualcil, J, Ali, M, Allinson, M, Alper, B, Alves, E, Ambrosino, G, Ambrosino, R, 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S., Telesca, G., Teplukhina, A., Terentyev, D., Terra, A., Terranova, D., Terranova, N., Testa, D., Tholerus, E., Thomas, J., Thoren, E., Thorman, A., Tierens, W., Tinguely, R. A., Tipton, A., Todd, H., Tokitani, M., Tolias, P., Tomes, M., Tookey, A., Torikai, Y., von Toussaint, U., Tsavalas, P., Tskhakaya, D., Turner, I., Turner, M., Turner, M. M., Turnyanskiy, M., Tvalashvili, G., Tyrrell, S., Tyshchenko, M., Uccello, A., Udintsev, V., Urbanczyk, G., Vadgama, A., Valcarcel, D., Valisa, M., Vallejos Olivares, P., Vallhagen, O., Valovic, M., Van Eester, D., Varje, J., Vartanian, S., Vasilopoulou, T., Vayakis, G., Vecsei, M., Vega, J., Ventre, S., Verdoolaege, G., Verona, C., Rinati, G. V., Veshchev, E., Vianello, N., Viezzer, E., Vignitchouk, L., Vila, R., Villari, R., Villone, F., Vincenzi, P., Viola, B., Virtanen, A. J., Vitins, A., Vizvary, Z., Vlad, G., Vlad, M., Vondracek, P., de Vries, P., Wakeling, B., Walkden, N. R., Walker, M., Walker, R., Walsh, M., Wang, E., Wang, N., Warder, S., Warren, R., Waterhouse, J., Watts, C., Wauters, T., Weckmann, A., Wedderburn Maxwell, H., Weiland, M., Weisen, H., Weiszflog, M., Welch, P., Wendler, N., West, A., Wheatley, M., Wheeler, S., Whitehead, A., Whittaker, D., Widdowson, A., Wiesen, S., Wilkinson, J., Williams, J. C., Willoughby, D., Wilson, I., Wilson, J., Wilson, T., Wischmeier, M., Wise, P., Withenshaw, G., Withycombe, A., Witts, D., Wojcik-Gargula, A., Wolfrum, E., Wood, R., Woodley, C., Woodley, R., Woods, B., Wright, J., Wright, J. C., Xu, T., Yadikin, D., Yajima, M., Yakovenko, Y., Yang, Y., Yanling, W., Yanovskiy, V., Young, I., Young, R., Zabolockis, R. J., Zacks, J., Zagorski, R., Zaitsev, F. S., Zakharov, L., Zarins, A., Zastrow, K. -D., Zayachuk, Y., Zerbini, M., Zhang, W., Zhou, Y., Zlobinski, M., Zocco, A., Zohar, A., Zoita, V., Zoletnik, S., Zotta, V. K., Zoulias, I., Zwingmann, W., Zychor, I., JET Contributors, Science and Technology of Nuclear Fusion, EIRES Eng. for Sustainable Energy Systems, Magneto-Hydro-Dynamic Stability of Fusion Plasmas, Applied Physics and Science Education, Kazakov, Yo, VTT Technical Research Centre of Finland, Culham Science Centre, Princeton Plasma Physics Laboratory, Department of Applied Physics, European Commission, Forschungszentrum Jülich, Universidade Lisboa, Fusion and Plasma Physics, University of Milan - Bicocca, Aalto University, General Atomics, ITER, University of Toyama, CEA, Oak Ridge National Laboratory, Technical University of Madrid, Swiss Federal Institute of Technology Lausanne, Dutch Institute for Fundamental Energy Research, Royal Military Academy, Seoul National University, Chalmers University of Technology, Max Planck Institute for Plasma Physics, KTH Royal Institute of Technology, and Aalto-yliopisto

Subjects
[PHYS]Physics [physics], Settore FIS/01, Settore ING-IND/18 - Fisica dei Reattori Nucleari, General Physics and Astronomy, simulation, magnetically confined plasma, nuclear fusion, tokamaks, turbulence suppression, Plasma, [PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph], confinement, transport, Alpha particles, Fusion reactors, Turbulence, physics
Abstract

openaire: EC/H2020/633053/EU//EUROfusion Funding Information: We thank M. Baruzzo and F. Nave for the preparation and execution of JET experiments discussed in this paper; E. de la Luna for support in detailing the experimental diagnostics of JET; A. Ho for assistance in processing the experimental data; T. Görler for providing essential advice to ensure the correct numerical setup for the GENE modelling reported in this paper; Y. Camenen, X. Garbet and A. Bierwage for fruitful discussions about the gyrokinetic analyses; G. Giruzzi for valuable suggestions on the article strategy. The simulations were performed on the IRENE Joliot-Curie HPC system, in the framework of the PRACE projects IONFAST and AFIETC, led by J. Garcia, and on the CINECA Marconi HPC within the project GENE4EP, led by D. Zarzoso. This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014-2018 and 2019-2020 under grant agreement no. 633053. The views and opinions express herein do not necessarily reflect those of the European Commission. Part of the work by Ye. O. Kazakov and J.Ongena was also carried out in the framework of projects done for the ITER Scientist Fellow Network (ISFN). Funding Information: We thank M. Baruzzo and F. Nave for the preparation and execution of JET experiments discussed in this paper; E. de la Luna for support in detailing the experimental diagnostics of JET; A. Ho for assistance in processing the experimental data; T. Görler for providing essential advice to ensure the correct numerical setup for the GENE modelling reported in this paper; Y. Camenen, X. Garbet and A. Bierwage for fruitful discussions about the gyrokinetic analyses; G. Giruzzi for valuable suggestions on the article strategy. The simulations were performed on the IRENE Joliot-Curie HPC system, in the framework of the PRACE projects IONFAST and AFIETC, led by J. Garcia, and on the CINECA Marconi HPC within the project GENE4EP, led by D. Zarzoso. This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014-2018 and 2019-2020 under grant agreement no. 633053. The views and opinions express herein do not necessarily reflect those of the European Commission. Part of the work by Ye. O. Kazakov and J.Ongena was also carried out in the framework of projects done for the ITER Scientist Fellow Network (ISFN). Publisher Copyright: © 2022, The Author(s), under exclusive licence to Springer Nature Limited. Alpha particles with energies on the order of megaelectronvolts will be the main source of plasma heating in future magnetic confinement fusion reactors. Instead of heating fuel ions, most of the energy of alpha particles is transferred to electrons in the plasma. Furthermore, alpha particles can also excite Alfvénic instabilities, which were previously considered to be detrimental to the performance of the fusion device. Here we report improved thermal ion confinement in the presence of megaelectronvolts ions and strong fast ion-driven Alfvénic instabilities in recent experiments on the Joint European Torus. Detailed transport analysis of these experiments reveals turbulence suppression through a complex multi-scale mechanism that generates large-scale zonal flows. This holds promise for more economical operation of fusion reactors with dominant alpha particle heating and ultimately cheaper fusion electricity.

Published
2022
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