Your search keyword '"Mazzitelli, G."' showing total 24 results

1. Recoil imaging for directional detection of dark matter, neutrinos, and physics beyond the Standard Model

Author

O'Hare, C. A. J., Loomba, D., Altenmüller, K., Álvarez-Pol, H., Amaro, F. D., Araújo, H. M., Sierra, D. Aristizabal, Asaadi, J., Attié, D., Aune, S., Awe, C., Ayyad, Y., Baracchini, E., Barbeau, P., Battat, J. B. R., Bell, N. F., Biasuzzi, B., Bignell, L. J., Boehm, C., Bolognino, I., Brunbauer, F. M., Caamaño, M., Cabo, C., Caratelli, D., Carmona, J. M., Castel, J. F., Cebrián, S., Cogollos, C., Collison, D., Costa, E., Dafni, T., Dastgiri, F., Deaconu, C., De Romeri, V., Desch, K., Dho, G., Di Giambattista, F., Díez-Ibáñez, D., D'Imperio, G., Dutta, B., Eldridge, C., Elliott, S. R., Ezeribe, A. C., Fava, A., Felkl, T., Fernández-Domínguez, B., Ribas, E. Ferrer, Flöthner, K. J., Froehlich, M., Galán, J., Galindo, J., García, F., Pascual, J. A. García, Gelli, B. P., Ghrear, M., Giomataris, Y., Gnanvo, K., Gramellini, E., Di Cortona, G. Grilli, Hall-Wilton, R., Harton, J., Hedges, S., Higashino, S., Hill, G., Holanda, P. C., Ikeda, T., Irastorza, I. G., Jackson, P., Janssens, D., Jones, B., Kaminski, J., Katsioulas, I., Kelly, K., Kemmerich, N., Kemp, E., Korandla, H. B., Kraus, H., Lackner, A., Lane, G. J., Lewis, P. M., Lisowska, M., Luzón, G., Lynch, W. A., Maccarrone, G., Mack, K. J., Majewski, P. A., Mano, R. D. P., Margalejo, C., Markoff, D., Marley, T., Marques, D. J. G., Massarczyk, R., Mazzitelli, G., McCabe, C., McKie, L. J., McLean, A. G., McNamara, P. C., Mei, Y., Messina, A., Mills, A. F., Mirallas, H., Miuchi, K., Monteiro, C. M. B., Mosbech, M. R., Muller, H., da Luz, H. Natal, Nakamura, K. D., Natochii, A., Neep, T., Newstead, J. L., Nikolopoulos, K., Obis, L., Oliveri, E., Orlandini, G., de Solórzano, A. Ortiz, von Oy, J., Papaevangelou, T., Pérez, O., Perez-Gonzalez, Y. F., Pfeiffer, D., Phan, N. S., Piacentini, S., Olloqui, E. Picatoste, Pinci, D., Popescu, S., Prajapati, A., Queiroz, F. S., Raaf, J. L., Resnati, F., Ropelewski, L., Roque, R. C., Ruiz-Choliz, E., Rusu, A., Ruz, J., Samarati, J., Santos, E. M., Santos, J. M. F. dos, Sauli, F., Scharenberg, L., Schiffer, T., Schmidt, S., Scholberg, K., Schott, M., Schueler, J., Segui, L., Sekiya, H., Sengupta, D., Slavkovska, Z., Snowden-Ifft, D., Soffitta, P., van Stenis, M., Spooner, N. J. C., Strigari, L., Stuchbery, A. E., Sun, X., Torelli, S., Tilly, E. G., Thomas, A. W., Thorpe, T. N., Urquijo, P., Utrobičić, A., Vahsen, S. E., Veenhof, R., Vogel, J. K., Williams, A. G., Wood, M. H., and Zettlemoyer, J.

Subjects

Physics - Instrumentation and Detectors, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Experiment, High Energy Physics - Phenomenology

Abstract

Recoil imaging entails the detection of spatially resolved ionization tracks generated by particle interactions. This is a highly sought-after capability in many classes of detector, with broad applications across particle and astroparticle physics. However, at low energies, where ionization signatures are small in size, recoil imaging only seems to be a practical goal for micro-pattern gas detectors. This white paper outlines the physics case for recoil imaging, and puts forward a decadal plan to advance towards the directional detection of low-energy recoils with sensitivity and resolution close to fundamental performance limits. The science case covered includes: the discovery of dark matter into the neutrino fog, directional detection of sub-MeV solar neutrinos, the precision study of coherent-elastic neutrino-nucleus scattering, the detection of solar axions, the measurement of the Migdal effect, X-ray polarimetry, and several other applied physics goals. We also outline the R&D programs necessary to test concepts that are crucial to advance detector performance towards their fundamental limit: single primary electron sensitivity with full 3D spatial resolution at the $\sim$100 micron-scale. These advancements include: the use of negative ion drift, electron counting with high-definition electronic readout, time projection chambers with optical readout, and the possibility for nuclear recoil tracking in high-density gases such as argon. We also discuss the readout and electronics systems needed to scale-up such detectors to the ton-scale and beyond., Comment: 77 pages, 20 figures. Submitted to the Proceedings of the US Community Study on the Future of Particle Physics (Snowmass 2021)

Published

2022

2. A density-based clustering algorithm for the CYGNO data analysis

Author

Baracchini, E., Benussi, L., Bianco, S., Capoccia, C., Caponero, M., Cavoto, G., Cortez, A., Costa, I. A., Di Marco, E., D'Imperio, G., Dho, G., Iacoangeli, F., Maccarrone, G., Marafini, M., Mazzitelli, G., Messina, A., Nobrega, R. A., Orlandi, A., Paoletti, E., Passamonti, L., Petrucci, F., Piccolo, D., Pierluigi, D., Pinci, D., Renga, F., Rosatelli, F., Russo, A., Saviano, G., and Tomassini, S.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

Time Projection Chambers (TPCs) working in combination with Gas Electron Multipliers (GEMs) produce a very sensitive detector capable of observing low energy events. This is achieved by capturing photons generated during the GEM electron multiplication process by means of a high-resolution camera. The CYGNO experiment has recently developed a TPC Triple GEM detector coupled to a low noise and high spatial resolution CMOS sensor. For the image analysis, an algorithm based on an adapted version of the well-known DBSCAN was implemented, called iDBSCAN. In this paper a description of the iDBSCAN algorithm is given, including test and validation of its parameters, and a comparison with DBSCAN itself and a widely used algorithm known as Nearest Neighbor Clustering (NNC). The results show that the adapted version of DBSCAN is capable of providing full signal detection efficiency and very good energy resolution while improving the detector background rejection.

Published

2020

3. Stability and detection performance of a GEM-based Optical Readout TPC with He/CF$_4$ gas mixtures

Author

Baracchini, E., Benussi, L., Bianco, S., Capoccia, C., Caponero, M., Cavoto, G., Cortez, A., Costa, I. A., Di Marco, E., D'Imperio, G., Dho, G., Iacoangeli, F., Maccarrone, G., Marafini, M., Mazzitelli, G., Messina, A., Nobrega, R. A., Orlandi, A., Paoletti, E., Passamonti, L., Petrucci, F., Piccolo, D., Pierluigi, D., Pinci, D., Renga, F., Rosatelli, F., Russo, A., Saviano, G., and Tomassini, S.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The performance and long term stability of an optically readout Time Projection Chamber with an electron amplification structure based on three Gas Electron Multipliers was studied. He/CF$_4$ based gas mixtures were used in two different proportions (60/40 and 70/30) in a CYGNO prototype with 7 litres sensitive volume. With electrical configurations providing very similar electron gains, an almost full detection efficiency in the whole detector volume was found with both mixtures, while a light yield about 20\% larger for the 60/40 was found. The electrostatic stability was tested by monitoring voltages and currents during 25 days. The detector worked in very stable and safe condition for the whole period. In the presence of less CF$_4$, a larger probability of unstable events was clearly detected.

Published

2020

4. First evidence of luminescence in a He/CF$_4$ gas mixture induced by non-ionizing electrons

Author

Baracchini, E., Benussi, L., Bianco, S., Capoccia, C., Caponero, M., Cavoto, G., Cortez, A., Costa, I. A., Di Marco, E., D'Imperio, G., Dho, G., Iacoangeli, F., Maccarrone, G., Marafini, M., Mazzitelli, G., Messina, A., Orlandi, A., Paoletti, E., Passamonti, L., Petrucci, F., Piccolo, D., Pierluigi, D., Pinci, D., Renga, F., Rosatelli, F., Russo, A., Saviano, G., and Tomassini, S.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

Optical readout of Gas Electron Multipliers (GEM) provides very interesting performances and has been proposed for different applications in particle physics. In particular, thanks to its good efficiency in the keV energy range, it is being developed for low-energy and rare event studies, such as Dark Matter search. So far, the optical approach exploits the light produced during the avalanche processes in GEM channels. Further luminescence in the gas can be induced by electrons accelerated by a suitable electric field. The CYGNO collaboration studied this process with a combined use of a triple-GEM structure and a grid in an He/CF$_4$ (60/40) gas mixture at atmospheric pressure. Results reported in this paper allow to conclude that with an electric field of about 11~kV/cm a photon production mean free path of about 1.0~cm was found.

Published

2020

5. A 1 m$^3$ Gas Time Projection Chamber with Optical Readout for Directional Dark Matter Searches: the CYGNO Experiment

Author

Baracchini, E., Bedogni, R., Bellini, F., Benussi, L., Bianco, S., Capoccia, C., Caponero, M., Cavoto, G., Costa, I. A., Di Marco, E., D'Imperio, G., Iacoangeli, F., Maccarone, G., Marafini, M., Mazzitelli, G., Messina, A., Orlandi, A., Paoletti, E., Passamonti, L., Pelosi, A., Petrucci, F., Piccolo, D., Pierluigi, D., Pinci, D., Renga, F., Russo, A., Saviano, G., and Tomassini, S.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The aim of the CYGNO project is the construction and operation of a 1~m$^3$ gas TPC for directional dark matter searches and coherent neutrino scattering measurements, as a prototype toward the 100-1000~m$^3$ (0.15-1.5 tons) CYGNUS network of underground experiments. In such a TPC, electrons produced by dark-matter- or neutrino-induced nuclear recoils will drift toward and will be multiplied by a three-layer GEM structure, and the light produced in the avalanche processes will be readout by a sCMOS camera, providing a 2D image of the event with a resolution of a few hundred micrometers. Photomultipliers will also provide a simultaneous fast readout of the time profile of the light production, giving information about the third coordinate and hence allowing a 3D reconstruction of the event, from which the direction of the nuclear recoil and consequently the direction of the incoming particle can be inferred. Such a detailed reconstruction of the event topology will also allow a pure and efficient signal to background discrimination. These two features are the key to reach and overcome the solar neutrino background that will ultimately limit non-directional dark matter searches., Comment: 5 page, 7 figures, contribution to the Conference Records of 2018 IEEE NSS/MIC

Published

2020

6. CYGNO: Triple-GEM Optical Readout for Directional Dark Matter Search

Author

Costa, I. Abritta, Baracchini, E., Bedogni, R., Bellini, F., Benussi, L., Bianco, S., Caponero, M., Cavoto, G., Di Marco, E., D'Imperio, G., Maccarrone, G., Marafini, M., Mazzitelli, G., Messina, A., Petrucci, F., Piccolo, D., Pinci, D., Renga, F., Saviano, G., and Tomassini, S.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

CYGNO is a project realising a cubic meter demonstrator to study the scalability of the performance of the optical approach for the readout of large-volume, GEM-equipped TPC. This is part of the CYGNUS proto-collaboration which aims at constructing a network of underground observatories for directional Dark Matter search. The combined use of high-granularity sCMOS and fast sensors for reading out the light produced in GEM channels during the multiplication processes was shown to allow on one hand to reconstruct 3D direction of the tracks, offering accurate energy measurements and sensitivity to the source directionality and, on the other hand, a high particle identification capability very useful to distinguish nuclear recoils. Results of the performed R&D and future steps toward a 30-100 cubic meter experiment will be presented., Comment: 6th International Conference on Micro Pattern Gaseous Detectors, MPGD19

Published

2019

7. MPGD Optical Read Out for Directional Dark Matter Search

Author

Mazzitelli, G., Baracchini, E., Cavoto, G., Di Marco, E., Marafini, M., Mancini, C., Pinci, D., Renga, F., and Tomassini, S.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The Time Projection method is an ideal candidate to track low energy release particles. Large volumes can be readout by means of a moderate number of channels providing a complete 3D reconstruction of the charged tracks within the sensitive volume. It allows the measurement not only of the total released energy but also of the energy release density along the tracks that can be very useful for particle identification and to solve the head-tail ambiguity of the tracks. Moreover, gas represents a very interesting target to study Dark Matter interactions. In gas, nuclear recoils can travel enough to give rise to tracks long enough to be acquired and reconstructed.

Published

2019

8. CYGNO: a CYGNUs Collaboration 1 m^3 Module with Optical Readout for Directional Dark Matter Search

Author

Baracchini, E., Bedogni, R., Bellini, F., Benussi, L., Bianco, S., Bignell, L., Caponero, M., Cavoto, G., Di Marco, E., Eldridge, C., Ezeribe, A., Gargana, R., Gamble, T., Gregorio, R., Lane, G., Loomba, D., Lynch, W., Maccarrone, G., Marafini, M., Mazzitelli, G., Messina, A., Mills, A., Miuchi, K., Petrucci, F., Piccolo, D., Pinci, D., Phan, N., Renga, F., Saviano, G., Spooner, N., Thorpe, T., Tomassini, S., and Vahsen, S.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The design of the project named CYGNO is presented. CYGNO is a new proposal supported by INFN, the Italian National Institute for Nuclear Physics, within CYGNUs proto-collaboration (CYGNUS-TPC) that aims to realize a distributed observatory in underground laboratories for directional Dark Matter (DM) search and the identification of the coherent neutrino scattering (CNS) from the Sun. CYGNO is one of the first prototypes in the road map to 100-1000 m^3 of CYGNUs and will be located at the National Laboratory of Gran Sasso (LNGS), in Italy, aiming to make significant advances in the technology of single phase gas-only time projection chambers (TPC) for the application to the detection of rare scattering events. In particular it will focus on a read-out technique based on Micro Pattern Gas Detector (MPGD) amplification of the ionization and on the visible light collection with a sub-mm position resolution sCMOS (scientific COMS) camera. This type of readout - in conjunction with a fast light detection - will allow on one hand to reconstruct 3D direction of the tracks, offering accurate sensitivity to the source directionality and, on the other hand, a high particle identification capability very useful to distinguish nuclear recoils.

Published

2019

9. PTOLEMY: A Proposal for Thermal Relic Detection of Massive Neutrinos and Directional Detection of MeV Dark Matter

Author

Baracchini, E., Betti, M. G., Biasotti, M., Bosca, A., Calle, F., Carabe-Lopez, J., Cavoto, G., Chang, C., Cocco, A. G., Colijn, A. P., Conrad, J., D'Ambrosio, N., de Salas, P. F., Faverzani, M., Ferella, A., Ferri, E., Garcia-Abia, P., Gomez-Tejedor, G. Garcia, Gariazzo, S., Gatti, F., Gentile, C., Giachero, A., Gudmundsson, J., Hochberg, Y., Kahn, Y., Lisanti, M., Mancini-Terracciano, C., Mangano, G., Marcucci, L. E., Mariani, C., Martinez, J., Mazzitelli, G., Messina, M., Molinero-Vela, A., Monticone, E., Nucciotti, A., Pandolfi, F., Pastor, S., Pedros, J., Heros, C. Perez de los, Pisanti, O., Polosa, A., Puiu, A., Rajteri, M., Santorelli, R., Schaeffner, K., Tully, C. G., Raitses, Y., Rossi, N., Zhao, F., and Zurek, K. M.

Subjects

Physics - Instrumentation and Detectors, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Experiment

Abstract

We propose to achieve the proof-of-principle of the PTOLEMY project to directly detect the Cosmic Neutrino Background (CNB). Each of the technological challenges described in [1,2] will be targeted and hopefully solved by the use of the latest experimental developments and profiting from the low background environment provided by the LNGS underground site. The first phase will focus on the graphene technology for a tritium target and the demonstration of TES microcalorimetry with an energy resolution of better than 0.05 eV for low energy electrons. These technologies will be evaluated using the PTOLEMY prototype, proposed for underground installation, using precision HV controls to step down the kinematic energy of endpoint electrons to match the calorimeter dynamic range and rate capabilities. The second phase will produce a novel implementation of the EM filter that is scalable to the full target size and which demonstrates intrinsic triggering capability for selecting endpoint electrons. Concurrent with the CNB program, we plan to exploit and develop the unique properties of graphene to implement an intermediate program for direct directional detection of MeV dark matter [3,4]. This program will evaluate the radio-purity and scalability of the graphene fabrication process with the goal of using recently identified ultra-high radio-purity CO2 sources. The direct detection of the CNB is a snapshot of early universe dynamics recorded by the thermal relic neutrino yield taken at a time that predates the epochs of Big Bang Nucleosynthesis, the Cosmic Microwave Background and the recession of galaxies (Hubble Expansion). Big Bang neutrinos are believed to have a central role in the evolution of the Universe and a direct measurement with PTOLEMY will unequivocally establish the extent to which these predictions match present-day neutrino densities.

Published

2018

10. Negative ion Time Projection Chamber operation with SF$_{6}$ at nearly atmospheric pressure

Author

Baracchini, E., Cavoto, G., Mazzitelli, G., Murtas, F., Renga, F., and Tomassini, S.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

We present measurements of drift velocities and mobilities of some innovative negative ion gas mixtures at nearly atmospheric pressure based on SF$_{6}$ as electronegative capture agent and of pure SF$_{6}$ at various pressures, performed with the NITEC detector. NITEC is a Time Projection Chamber with 5 cm drift distance readout by a GEMPix, a triple thin GEMs coupled to a Quad-Timepix chip, directly sensitive to the deposited charge on each of the 55 $\times$ 55 $\mu$m$^2$ pixel. Our results contribute to expanding the knowledge on the innovative use of SF$_{6}$ as negative ion gas and extend to triple thin GEMs the possibility of negative ion operation for the first time. Above all, our findings show the feasibility of negative ion operation with He:CF$_4$:SF$_{6}$ at 610 Torr, opening extremely interesting possibility for next generation directional Dark Matter detectors at 1 bar.

Published

2017

11. Carbon nanotubes as target for directional detection of light WIMP

Author

Antochi, V. C., Baracchini, E., Cavoto, G., Di Marco, E., Mazzitelli, G., Pinci, D., Polosa, A. D., Renga, F., and Voena, C.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

In this paper I will briefly introduce the idea of using Carbon Nanotubes (CNT) as target for the detection of low mass WIMPs with the additional information of directionality. I will also present the experimental efforts of developing a Time Projection Chamber with a CNT target inside and the results of a test beam at the Beam Test Facility of INFN-LNF., Comment: 3 figures, IFAE2017 poster session proceedings

Published

2017

12. The Air Microwave Yield (AMY) experiment - A laboratory measurement of the microwave emission from extensive air showers

Author

Louedec, K., Alvarez-Muñiz, J., Blanco, M., Bohácová, M., Buonomo, B., Cataldi, G., Coluccia, M. R., Creti, P., De Mitri, I., Di Giulio, C., Luis, P. Facal San, Foggetta, L., Gaïor, R., Garcia-Fernandez, D., Iarlori, M., Coz, S. Le, Letessier-Selvon, A., Mariş, I. C., Martello, D., Mazzitelli, G., Monasor, M., Perrone, L., Pesce, R., Petrera, S., Privitera, P., Rizi, V., Fernandez, G. Rodriguez, Salamida, F., Salina, G., Settimo, M., Valente, P., Vazquez, J. R., Verzi, V., and Williams, C.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, High Energy Physics - Experiment

Abstract

The AMY experiment aims to measure the microwave bremsstrahlung radiation (MBR) emitted by air-showers secondary electrons accelerating in collisions with neutral molecules of the atmosphere. The measurements are performed using a beam of 510 MeV electrons at the Beam Test Facility (BTF) of Frascati INFN National Laboratories. The goal of the AMY experiment is to measure in laboratory conditions the yield and the spectrum of the GHz emission in the frequency range between 1 and 20 GHz. The final purpose is to characterise the process to be used in a next generation detectors of ultra-high energy cosmic rays. A description of the experimental setup and the first results are presented., Comment: 3 pages -- EPS-HEP'13 European Physical Society Conference on High Energy Physics (July, 18-24, 2013) at Stockholm, Sweden

Published

2013

13. 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

14. Proposal for taking data with the KLOE-2 detector at the DA$\Phi$NE collider upgraded in energy

Author

Babusci, D., Bini, C., Bossi, F., Isidori, G., Moricciani, D., Nguyen, F., Raimondi, P., Venanzoni, G., Alesini, D., Archilli, F., Badoni, D., Baldini-Ferroli, R., Bellaveglia, M., Bencivenni, G., Bertani, M., Biagini, M., Biscari, C., Bloise, C., Bocci, V., Boni, R., Boscolo, M., Branchini, P., Budano, A., Bulychjev, S. A., Buonomo, B., Campana, P., Capon, G., Castellano, M., Ceradini, F., Chiadroni, E., Ciambrone, P., Cultrera, L., Czerwinski, E., Dané, E., Monache, G. Delle, De Lucia, E., Demma, T., De Robertis, G., De Santis, A., De Zorzi, G., Di Domenico, A., Di Donato, C., Di Micco, B., Di Pasquale, E., Di Pirro, G., Di Salvo, R., Domenici, D., Drago, A., Esposito, M., Erriquez, O., Felici, G., Ferrario, M., Ficcadenti, L., Filippetto, D., Fiore, S., Franzini, P., Franzini, G., Gallo, A., Gatti, G., Gauzzi, P., Giovannella, S., Ghigo, A., Gonnella, F., Graziani, E., Guiducci, S., Happacher, F., Höistad, B., Iarocci, E., Jacewicz, M., Johansson, T., Kluge, W., Kulikov, V. V., Kupsc, A., Franzini, J. Lee, Ligi, C., Loddo, F., Lukin, P., Marcellini, F., Marchetti, C., Martemianov, M. A., Martini, M., Matsyuk, M. A., Mazzitelli, G., Messi, R., Milardi, C., Mirazzita, M., Miscetti, S., Morello, G., Moskal, P., Müeller, S., Pacetti, S., Pancheri, G., Pasqualucci, E., Passera, M., Passeri, A., Patera, V., Polosa, A. D., Preger, M., Quintieri, L., Ranieri, A., Rossi, P., Sanelli, C., Santangelo, P., Sarra, I., Schioppa, M., Sciascia, B., Serio, M., Sgamma, F., Silarski, M., Spataro, B., Stecchi, A., Stella, A., Stucci, S., Taccini, C., Tomassini, S., Tortora, L., Vaccarezza, C., Versaci, R., Wislicki, W., Wolke, M., Zdebik, J., and Zobov, M.

Subjects

High Energy Physics - Experiment, High Energy Physics - Phenomenology

Abstract

This document reviews the physics program of the KLOE-2 detector at DA$\Phi$NE upgraded in energy and provides a simple solution to run the collider above the $\phi$-peak (up to 2, possibly 2.5 GeV). It is shown how a precise measurement of the multihadronic cross section in the energy region up to 2 (possibly 2.5) GeV would have a major impact on the tests of the Standard Model through a precise determination of the anomalous magnetic moment of the muon and the effective fine-structure constant at the $M_Z$ scale. With a luminosity of about $10^{32}$cm$^{-2}$s$^{-1}$, DA$\Phi$NE upgraded in energy can perform a scan in the region from 1 to 2.5 GeV in one year by collecting an integrated luminosity of 20 pb$^{-1}$ (corresponding to a few days of data taking) for single point, assuming an energy step of 25 MeV. A few years of data taking in this region would provide important tests of QCD and effective theories by $\gamma\gamma$ physics with open thresholds for pseudo-scalar (like the $\eta'$), scalar ($f_0,f'_0$, etc...) and axial-vector ($a_1$, etc...) mesons; vector-mesons spectroscopy and baryon form factors; tests of CVC and searches for exotics. In the final part of the document a technical solution for the energy upgrade of DA$\Phi$NE is proposed., Comment: 19 pages, 8 figures

Published

2010

15. Measurement of the luminosity at the DAFNE collider upgraded with the crab waist scheme

Author

Boscolo, M., Bossi, F., Buonomo, B., Mazzitelli, G., Murtas, F., Raimondi, P., Sensolini, G., Schioppa, M., Iacoangeli, F., Valente, P., Arnaud, N., Breton, D., Burmistrov, L., Stocchi, A., Variola, A., Viaud, B., and Branchini, P.

Subjects

High Energy Physics - Experiment

Abstract

The test of the crab waist collision scheme, undergoing at the e+e- Frascati DAFNE accelerator complex since February 2008, requires a fast and accurate measurement of the absolute luminosity, as well as a full characterization of the background conditions. Three different monitors, a Bhabha calorimeter, a Bhabha GEM tracker and a gamma bremsstrahlung proportional counter have been designed, tested and installed around the interaction point end of 2007-beginning of 2008. In this paper, we describe these detectors and present their performances in various operation conditions during the 2008 and 2009 DAFNE runs., Comment: The resolution of some pictures has been decreased in order to cope with the ArXiv policy

Published

2009

16. Detection of high energy cosmic rays with the resonant gravitational wave detector NAUTILUS and EXPLORER

Author

Astone, P., Babusci, D., Bassan, M., Bonifazi, P., Cavallari, G., Coccia, E., D'Antonio, S., Fafone, V., Giordano, G., Ligi, C., Marini, A., Mazzitelli, G., Minenkov, Y., Modena, I., Modestino, G., Moleti, A., Pallottino, G. V., Pizzella, G., Quintieri, L., Rocchi, A., Ronga, F., Terenzi, R., and Visco, M.

Subjects

High Energy Physics - Experiment

Abstract

The cryogenic resonant gravitational wave detectors NAUTILUS and EXPLORER, made of an aluminum alloy bar, can detect cosmic ray showers. At temperatures above 1 K, when the material is in the normal conducting state, the measured signals are in good agreement with the values expected based on the cosmic rays data and on the thermo-acoustic model. When NAUTILUS was operated at the temperature of 0.14 K, in superconductive state, large signals produced by cosmic ray interactions, more energetic than expected, were recorded. The NAUTILUS data in this case are in agreement with the measurements done by a dedicated experiment on a particle beam. The biggest recorded event was in EXPLORER and excited the first longitudinal mode to a vibrational energy of about 670 K, corresponding to about 360 TeV absorbed in the bar. Cosmic rays can be an important background in future acoustic detectors of improved sensitivity. At present, they represent a useful tool to verify the gravitational wave antenna performance., Comment: submitted to Astroparticle Physics

Published

2008

17. The KLOE/DAPHNE Status Logging, Analysis and Database System

Author

Mazzitelli, G., Murtas, F., and Valente, P.

Subjects

High Energy Physics - Experiment

Abstract

The KLOE experiment at the Frascati phi-factory DAPHNE, designed to measure $\Re(\epsilon^\prime/\epsilon)$, began preliminary data taking in the Fall of 1999. A large database structure, which logs information coming from the DAPHNE control system and the KLOE slow control and data acquisition systems, has been developed. Data from detector monitoring, online event processing and machine operating conditions are easily accessible for online and offline analysis by means of Web tools and histogramming tools. The system allows powerful real-time data correlations which are necessary for the ongoing program of luminosity and background improvements. Data flow and handling processes are presented., Comment: ICALEPCS 2001 Talk (WEDT002)

Published

2001

18. The air microwave yield (AMY) experiment - A laboratory measurement of the microwave emission from extensive air showers

Author

Alvarez-Muñiz, J., Blanco, M., Boháčová, M., Buonomo, B., Cataldi, G., Coluccia, M. R., Creti, P., Demitri, I., Digiulio, C., Facal San Luis, P., Foggetta, L., Gaïor, R., Garcia-Fernandez, D., Iarlori, M., Lecoz, S., Letessier-Selvon, A., Louedec, K., Mariş, I. C., Martello, D., Mazzitelli, G., Monasor, M., Perrone, L., Pesce, R., Petrera, S., Privitera, P., Rizi, V., Rodriguez Fernandez, G., Francesco Salamida, Salina, G., Settimo, M., Valente, P., Vazquez, J. R., Verzi, V., Williams, C., Laboratoire de Physique Nucléaire et de Hautes Énergies (LPNHE), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), 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)

Subjects

[PHYS.ASTR.HE]Physics [physics]/Astrophysics [astro-ph]/High Energy Astrophysical Phenomena [astro-ph.HE], High Energy Physics - Experiment (hep-ex), Multidisciplinary, [SDU.ASTR.HE]Sciences of the Universe [physics]/Astrophysics [astro-ph]/High Energy Astrophysical Phenomena [astro-ph.HE], Astrophysics::High Energy Astrophysical Phenomena, Physics::Accelerator Physics, FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), ComputingMilieux_MISCELLANEOUS, High Energy Physics - Experiment

Abstract

The AMY experiment aims to measure the microwave bremsstrahlung radiation (MBR) emitted by air-showers secondary electrons accelerating in collisions with neutral molecules of the atmosphere. The measurements are performed using a beam of 510 MeV electrons at the Beam Test Facility (BTF) of Frascati INFN National Laboratories. The goal of the AMY experiment is to measure in laboratory conditions the yield and the spectrum of the GHz emission in the frequency range between 1 and 20 GHz. The final purpose is to characterise the process to be used in a next generation detectors of ultra-high energy cosmic rays. A description of the experimental setup and the first results are presented., Comment: 3 pages -- EPS-HEP'13 European Physical Society Conference on High Energy Physics (July, 18-24, 2013) at Stockholm, Sweden

Published

2013

19. Measurement of the luminosity at the DAFNE collider upgraded with the crab waist scheme

Author

Manuela Boscolo, Bossi, F., Buonomo, B., Mazzitelli, G., Murtas, F., Raimondi, P., Sensolini, G., Schioppa, M., Iacoangeli, F., Valente, P., Arnaud, N., Breton, D., Burmistrov, L., Stocchi, A., Variola, A., Viaud, B., and Branchini, P.

Subjects

High Energy Physics - Experiment (hep-ex), Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Physics::Accelerator Physics, FOS: Physical sciences, High Energy Physics::Experiment, High Energy Physics - Experiment

Abstract

The test of the crab waist collision scheme, undergoing at the e+e- Frascati DAFNE accelerator complex since February 2008, requires a fast and accurate measurement of the absolute luminosity, as well as a full characterization of the background conditions. Three different monitors, a Bhabha calorimeter, a Bhabha GEM tracker and a gamma bremsstrahlung proportional counter have been designed, tested and installed around the interaction point end of 2007-beginning of 2008. In this paper, we describe these detectors and present their performances in various operation conditions during the 2008 and 2009 DAFNE runs., Comment: The resolution of some pictures has been decreased in order to cope with the ArXiv policy

20. Proposal for taking data with the KLOE-2 detector at the DA$\Phi$NE collider upgraded in energy

Author

Babusci, D., Bini, C., Bossi, F., Isidori, G., Moricciani, D., Nguyen, F., Raimondi, P., Venanzoni, G., Alesini, D., Archilli, F., Badoni, D., Baldini-Ferroli, R., Bellaveglia, M., Bencivenni, G., Bertani, M., Biagini, M., Biscari, C., Bloise, C., Bocci, V., Boni, R., Boscolo, M., Branchini, P., Budano, A., Bulychjev, S. A., Buonomo, B., Campana, P., Capon, G., Castellano, M., Ceradini, F., Chiadroni, E., Ciambrone, P., Cultrera, L., Czerwinski, E., Dane, E., Delle Monache, G., Lucia, E., Demma, T., Robertis, G., Santis, A., Zorzi, G., Di Domenico, A., Di Donato, C., Di Micco, B., Di Pasquale, E., Di Pirro, G., Di Salvo, R., Domenici, D., Drago, A., Esposito, M., Erriquez, O., Felici, G., Ferrario, M., Ficcadenti, L., Filippetto, D., Fiore, S., Franzini, P., Franzini, G., Gallo, A., Gatti, G., Gauzzi, P., Giovannella, S., Ghigo, A., Gonnella, F., Graziani, E., Guiducci, S., Happacher, F., Hoistad, B., Iarocci, E., Jacewicz, M., Johansson, T., Kluge, W., Kulikov, V. V., Kupsc, A., Lee Franzini, J., Ligi, C., Loddo, F., Lukin, P., Marcellini, F., Marchetti, C., Martemianov, M. A., Martini, M., Matsyuk, M. A., Mazzitelli, G., Messi, R., Milardi, C., Mirazzita, M., Miscetti, S., Morello, G., Moskal, P., Mueller, S., Pacetti, S., Pancheri, G., Pasqualucci, E., Passera, M., Passeri, A., Patera, V., Polosa, A. D., Preger, M., Quintieri, L., Ranieri, A., Rossi, P., Sanelli, C., Santangelo, P., Ivano Sarra, Schioppa, M., Sciascia, B., Serio, M., Sgamma, F., Silarski, M., Spataro, B., Stecchi, A., Stella, A., Stucci, S., Taccini, C., Tomassini, S., Tortora, L., Vaccarezza, C., Versaci, R., Wislicki, W., Wolke, M., Zdebik, J., and Zobov, M.

Subjects

High Energy Physics - Phenomenology, High Energy Physics::Experiment, Particle Physics - Experiment, High Energy Physics - Experiment

Abstract

This document reviews the physics program of the KLOE-2 detector at DA$\Phi$NE upgraded in energy and provides a simple solution to run the collider above the $\phi$-peak (up to 2, possibly 2.5 GeV). It is shown how a precise measurement of the multihadronic cross section in the energy region up to 2 (possibly 2.5) GeV would have a major impact on the tests of the Standard Model through a precise determination of the anomalous magnetic moment of the muon and the effective fine-structure constant at the $M_Z$ scale. With a luminosity of about $10^{32}$cm$^{-2}$s$^{-1}$, DA$\Phi$NE upgraded in energy can perform a scan in the region from 1 to 2.5 GeV in one year by collecting an integrated luminosity of 20 pb$^{-1}$ (corresponding to a few days of data taking) for single point, assuming an energy step of 25 MeV. A few years of data taking in this region would provide important tests of QCD and effective theories by $\gamma\gamma$ physics with open thresholds for pseudo-scalar (like the $\eta'$), scalar ($f_0,f'_0$, etc...) and axial-vector ($a_1$, etc...) mesons; vector-mesons spectroscopy and baryon form factors; tests of CVC and searches for exotics. In the final part of the document a technical solution for the energy upgrade of DA$\Phi$NE is proposed., Comment: 19 pages, 8 figures

21. The CYGNO Experiment

Author

Fernando Domingues Amaro, Elisabetta Baracchini, Luigi Benussi, Stefano Bianco, Cesidio Capoccia, Michele Caponero, Danilo Santos Cardoso, Gianluca Cavoto, André Cortez, Igor Abritta Costa, Rita Joanna da Cruz Roque, Emiliano Dané, Giorgio Dho, Flaminia Di Giambattista, Emanuele Di Marco, Giovanni Grilli di Cortona, Giulia D’Imperio, Francesco Iacoangeli, Herman Pessoa Lima Júnior, Guilherme Sebastiao Pinheiro Lopes, Amaro da Silva Lopes Júnior, Giovanni Maccarrone, Rui Daniel Passos Mano, Michela Marafini, Robert Renz Marcelo Gregorio, David José Gaspar Marques, Giovanni Mazzitelli, Alasdair Gregor McLean, Andrea Messina, Cristina Maria Bernardes Monteiro, Rafael Antunes Nobrega, Igor Fonseca Pains, Emiliano Paoletti, Luciano Passamonti, Sandro Pelosi, Fabrizio Petrucci, Stefano Piacentini, Davide Piccolo, Daniele Pierluigi, Davide Pinci, Atul Prajapati, Francesco Renga, Filippo Rosatelli, Alessandro Russo, Joaquim Marques Ferreira dos Santos, Giovanna Saviano, Neil John Curwen Spooner, Roberto Tesauro, Sandro Tomassini, Samuele Torelli, Amaro, F. D., Baracchini, E., Benussi, L., Bianco, S., Capoccia, C., Caponero, M., Cardoso, D. S., Cavoto, G., Cortez, A., Costa, I. A., Da Cruz Roque, R. J., Dane, E., Dho, G., Di Giambattista, F., Di Marco, E., Di Cortona, G. G., D'Imperio, G., Iacoangeli, F., Lima Junior, H. P., Lopes, G. S. P., Da Silva Lopes Junior, A., Maccarrone, G., Mano, R. D. P., Marafini, M., Gregorio, R. R. M., Marques, D. J. G., Mazzitelli, G., Mclean, A. G., Messina, A., Monteiro, C. M. B., Nobrega, R. A., Pains, I. F., Paoletti, E., Passamonti, L., Pelosi, S., Petrucci, F., Piacentini, S., Piccolo, D., Pierluigi, D., Pinci, D., Prajapati, A., Renga, F., Rosatelli, F., Russo, A., Dos Santos, J. M. F., Saviano, G., Spooner, N. J. C., Tesauro, R., Tomassini, S., and Torelli, S.

Subjects

dark matter, time projection chamber, optical readout, Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, directionality, time projection chamber, CMOS camera, CMOS camera, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), Time projection chamber, Dark matter, Instrumentation, Optical readout

Abstract

The search for a novel technology able to detect and reconstruct nuclear and electron recoil events with the energy of a few keV has become more and more important now that large regions of high-mass dark matter (DM) candidates have been excluded. Moreover, a detector sensitive to incoming particle direction will be crucial in the case of DM discovery to open the possibility of studying its properties. Gaseous time projection chambers (TPC) with optical readout are very promising detectors combining the detailed event information provided by the TPC technique with the high sensitivity and granularity of latest-generation scientific light sensors. The CYGNO experiment (a CYGNus module with Optical readout) aims to exploit the optical readout approach of multiple-GEM structures in large volume TPCs for the study of rare events as interactions of low-mass DM or solar neutrinos. The combined use of high-granularity sCMOS cameras and fast light sensors allows the reconstruction of the 3D direction of the tracks, offering good energy resolution and very high sensitivity in the few keV energy range, together with a very good particle identification useful for distinguishing nuclear recoils from electronic recoils. This experiment is part of the CYGNUS proto-collaboration, which aims at constructing a network of underground observatories for directional DM search. A one cubic meter demonstrator is expected to be built in 2022/23 aiming at a larger scale apparatus (30 m3–100 m3) at a later stage.

Published

2022

22. Stability and detection performance of a GEM-based Optical Readout TPC with He/CF$_4$ gas mixtures

Author

A. Orlandi, E. Paoletti, F. Rosatelli, G. Maccarrone, D. Pierluigi, G. Saviano, Antonio Russo, Michele Arturo Caponero, G. Mazzitelli, Sandro Tomassini, R. A. Nobrega, A.F.V. Cortez, Andrea Messina, I. A. Costa, Stefano Bianco, G. Cavoto, L. Passamonti, M. Marafini, G. D'Imperio, D. Pinci, C. Capoccia, Francesco Iacoangeli, F. Renga, G. Dho, E. Baracchini, E. Di Marco, Fabrizio Petrucci, Davide Piccolo, Luisa Benussi, Baracchini, E., Benussi, L., Bianco, S., Capoccia, C., Caponero, M., Cavoto, G., Cortez, A., Costa, I. A., Di Marco, E., D'Imperio, G., Dho, G., Iacoangeli, F., Maccarrone, G., Marafini, M., Mazzitelli, G., Messina, A., Nobrega, R. A., Orlandi, A., Paoletti, E., Passamonti, L., Petrucci, F., Piccolo, D., Pierluigi, D., Pinci, D., Renga, F., Rosatelli, F., Russo, A., Saviano, G., and Tomassini, S.

Subjects

Physics, Physics - Instrumentation and Detectors, 010308 nuclear & particles physics, business.industry, Time projection Chambers (TPC), FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), 01 natural sciences, Stability (probability), High Energy Physics - Experiment, 3. Good health, High Energy Physics - Experiment (hep-ex), Gaseous imaging and tracking detectors, Dark Matter detectors (WIMPs Axions Etc.), Micropattern gaseous detectors (MSGC GEM THGEM RETHGEM MHSP MICROPIC MICROMEGAS InGrid Etc), 0103 physical sciences, Optoelectronics, Detection performance, Gaseous imaging and tracking detector, 010306 general physics, business, Instrumentation, Mathematical Physics

Abstract

The performance and long term stability of an optically readout Time Projection Chamber with an electron amplification structure based on three Gas Electron Multipliers was studied. He/CF$_4$ based gas mixtures were used in two different proportions (60/40 and 70/30) in a CYGNO prototype with 7 litres sensitive volume. With electrical configurations providing very similar electron gains, an almost full detection efficiency in the whole detector volume was found with both mixtures, while a light yield about 20\% larger for the 60/40 was found. The electrostatic stability was tested by monitoring voltages and currents during 25 days. The detector worked in very stable and safe condition for the whole period. In the presence of less CF$_4$, a larger probability of unstable events was clearly detected.

Published

2020

23. A density-based clustering algorithm for the CYGNO data analysis

Author

E. Paoletti, A.F.V. Cortez, Antonio Russo, L. Passamonti, Davide Piccolo, G. Maccarrone, G. D'Imperio, Fabrizio Petrucci, R. A. Nobrega, Stefano Bianco, G. Saviano, G. Cavoto, D. Pinci, Luisa Benussi, M. Marafini, G. Dho, F. Rosatelli, E. Baracchini, E. Di Marco, I. A. Costa, Sandro Tomassini, G. Mazzitelli, Roberto Tesauro, Michele Arturo Caponero, D. Pierluigi, Francesco Iacoangeli, F. Renga, A. Orlandi, A. Messina, C. Capoccia, Baracchini, E., Benussi, L., Bianco, S., Capoccia, C., Caponero, M., Cavoto, G., Cortez, A., Costa, I. A., Marco, E. D., D'Imperio, G., Dho, G., Iacoangeli, F., Maccarrone, G., Marafini, M., Mazzitelli, G., Messina, A., Nobrega, R. A., Orlandi, A., Paoletti, E., Passamonti, L., Petrucci, F., Piccolo, D., Pierluigi, D., Pinci, D., Renga, F., Rosatelli, F., Russo, A., Saviano, G., Tesauro, R., and Tomassini, S.

Subjects

Physics - Instrumentation and Detectors, Computer science, Physics::Instrumentation and Detectors, FOS: Physical sciences, Image processing, 01 natural sciences, dark matter, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), cluster finding, Pattern recognition, 0103 physical sciences, gas time projection chamber, 010306 general physics, Instrumentation, Image resolution, Mathematical Physics, Data processing, 010308 nuclear & particles physics, business.industry, Resolution (electron density), Micropattern gaseous detectors, Instrumentation and Detectors (physics.ins-det), calibration and fitting methods, Image filtering, Data processing methods, Artificial intelligence, Noise (video), business, Density based clustering

Abstract

Time Projection Chambers (TPCs) working in combination with Gas Electron Multipliers (GEMs) produce a very sensitive detector capable of observing low energy events. This is achieved by capturing photons generated during the GEM electron multiplication process by means of a high-resolution camera. The CYGNO experiment has recently developed a TPC Triple GEM detector coupled to a low noise and high spatial resolution CMOS sensor. For the image analysis, an algorithm based on an adapted version of the well-known DBSCAN was implemented, called iDBSCAN. In this paper a description of the iDBSCAN algorithm is given, including test and validation of its parameters, and a comparison with DBSCAN itself and a widely used algorithm known as Nearest Neighbor Clustering (NNC). The results show that the adapted version of DBSCAN is capable of providing full signal detection efficiency and very good energy resolution while improving the detector background rejection.

24. First evidence of luminescence in a He/CF 4 gas mixture induced by non-ionizing electrons

Author

E. Paoletti, G. Maccarrone, Michele Arturo Caponero, Giovanni Mazzitelli, Sandro Tomassini, Francesco Iacoangeli, G. Cavoto, D. Piccolo, A. Messina, A.F.V. Cortez, C. Capoccia, G. Saviano, A. Orlandi, G. Dho, F. Renga, A. Russo, E. Di Marco, Davide Pinci, S. Bianco, F. Rosatelli, D. Pierluigi, Luigi Benussi, I. A. Costa, Michela Marafini, L. Passamonti, E. Baracchini, Fabrizio Petrucci, G. D'Imperio, Baracchini, E., Benussi, L., Bianco, S., Capoccia, C., Caponero, M., Cavoto, G., Cortez, A., Costa, I. A., Marco, E. D., D'Imperio, G., Dho, G., Iacoangeli, F., Maccarrone, G., Marafini, M., Mazzitelli, G., Messina, A., Orlandi, A., Paoletti, E., Passamonti, L., Petrucci, F., Piccolo, D., Pierluigi, D., Pinci, D., Renga, F., Rosatelli, F., Russo, A., Saviano, G., and Tomassini, S.

Subjects

Micropattern gaseous detectors (msgc, gem, thgem, rethgem, mhsp, micropic, micromegas, ingrid, etc), Physics - Instrumentation and Detectors, Photon, axions, Physics::Instrumentation and Detectors, Mean free path, Dark matter, FOS: Physical sciences, Electron, 01 natural sciences, 7. Clean energy, dark matter, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), Electric field, etc.), 0103 physical sciences, gas time projection chamber, 010306 general physics, Instrumentation, Mathematical Physics, Dark matter detectors (wimps, axions, etc.), Physics, Range (particle radiation), Atmospheric pressure, 010308 nuclear & particles physics, Instrumentation and Detectors (physics.ins-det), 3. Good health, Dark matter detectors (wimps, Atomic physics, Luminescence, Photoemission

Abstract

Optical readout of Gas Electron Multipliers (GEM) provides very interesting performance and has been proposed for different applications in particle physics. In particular, thanks to its good efficiency in the keV energy range, it is being developed for low-energy and rare event studies, such as Dark Matter searches. So far, the optical approach has only exploited the light produced during the avalanche processes in GEM channels. Further luminescence in the gas can be induced by electrons accelerated by a suitable electric field. The CYGNO collaboration studied this process with a combined use of a triple-GEM structure and a grid in an He/CF4 (60/40) gas mixture at atmospheric pressure. Results reported in this paper allow to conclude that with an electric field of about 11 kV/cm a photon production mean free path of about 1.0 cm was found.