Novel technique for the study of pileup events in cryogenic bolometers
| Autor: | Valentyn Novosad, Andrea Giachero, R. Nipoti, Jie Zhang, H. Z. Huang, V. G. Yefremenko, G. Keppel, D. Mayer, C. Nones, A. Puiu, S. Nisi, A. Armatol, K. Wilson, I. Colantoni, A. Barresi, P. Loaiza, C. Oriol, G. Pessina, V. Sanglard, L. Imbert, M. Faverzani, M. Beretta, S. Copello, C. Pagliarone, F.A. Danevich, A. Branca, Jonathan Ouellet, T. O'Donnell, Paolo Carniti, Massimiliano Clemenza, G. Bari, S. Di Domizio, Kai Vetter, C. Rosenfeld, D. L. Helis, Monica Sisti, Federico Ferri, H. Khalife, V. Boldrini, P. Gorla, P. Pari, F. Ferroni, Tomas Polakovic, B. Schmidt, Stefano Dell'Oro, A. Charrier, J. Billard, C. Tomei, S. H. Fu, N. Casali, Laura Cardani, G. Wang, Jie Yang, B. K. Fujikawa, R. J. Creswick, Davide Chiesa, P. Gras, M. Chapellier, C. Pira, Joseph A. Formaggio, L. Pagnanini, P. T. Surukuchi, C. Brofferio, L. Wang, Massimiliano Nastasi, Stefano Pozzi, E. Figueroa-Feliciano, Haiping Peng, V. Shlegel, V. Sharma, E. V. Hansen, A. S. Barabash, B. Paul, M. Gros, Evelyn Ferri, Oliviero Cremonesi, S. Zucchelli, James Nikkel, Ezio Previtali, J. Gascon, R. Mariam, C. C. Chang, L. Ma, Yu. G. Kolomensky, Luigi Cappelli, L. Taffarello, B. Welliver, A. Giuliani, M. Madhukuttan, Matias Velázquez, C. Augier, S. Marnieros, V. Yumatov, Goran Karapetrov, G. Fantini, A. Cazes, Danielle Speller, James R. Wilson, A. Cruciani, X. F. Navick, S. Pirro, V. V. Kobychev, J. Camilleri, A. Franceschi, Changbo Fu, C. Rusconi, J. A. Scarpaci, A. Juillard, L. Bergé, R. Rizzoli, M. M. Zarytskyy, V. Dompè, G. D'Imperio, Irene Nutini, A. D'Addabbo, P. de Marcillac, M. De Jesus, O. G. Polischuk, F. Bellini, A. Ressa, D. Baudin, M. Xue, M. Pavan, Lindley Winslow, A. Drobizhev, I. Dafinei, S. L. Wagaarachchi, F. Collamati, V. Pettinacci, Simone Capelli, E. Olivieri, S. I. Konovalov, Eric B. Norman, L. Pattavina, M. I. Martínez, T. Napolitano, L. Marini, V.I. Tretyak, D. Misiak, D. V. Poda, J. Johnston, M. Biassoni, E. Armengaud, Vasundhara Singh, S. Milana, O. Azzolini, L. Gironi, F. T. Avignone, Whitney Armstrong, Y. Liu, C. Bucci, T. D. Gutierrez, R. G. Huang, F. Mancarella, L. Yan, S. Pagan, B. Mauri, M. de Combarieu, E. Celi, C. Gotti, A. S. Zolotarova, Ke Han, Reina H. Maruyama, A. Tsymbaliuk, Y. Mei, K. M. Heeger, O. Tellier, L. Dumoulin, Giovanni Benato |
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| Přispěvatelé: | Armatol A., Armengaud E., Armstrong W., Augier C., Avignone F.T., Azzolini O., Barabash A., Bari G., Barresi A., Baudin D., Bellini F., Benato G., Beretta M., Berge L., Biassoni M., Billard J., Boldrini V., Branca A., Brofferio C., Bucci C., Camilleri J., Capelli S., Cappelli L., Cardani L., Carniti P., Casali N., Cazes A., Celi E., Chang C., Chapellier M., Charrier A., Chiesa D., Clemenza M., Colantoni I., Collamati F., Copello S., Cremonesi O., Creswick R.J., Cruciani A., D'Addabbo A., D'Imperio G., Dafinei I., Danevich F.A., De Combarieu M., De Jesus M., De Marcillac P., Dell'Oro S., Di Domizio S., Dompe V., Drobizhev A., Dumoulin L., Fantini G., Faverzani M., Ferri E., Ferri F., Ferroni F., Figueroa-Feliciano E., Formaggio J., Franceschi A., Fu C., Fu S., Fujikawa B.K., Gascon J., Giachero A., Gironi L., Giuliani A., Gorla P., Gotti C., Gras P., Gros M., Gutierrez T.D., Han K., Hansen E.V., Heeger K.M., Helis D.L., Huang H.Z., Huang R.G., Imbert L., Johnston J., Juillard A., Karapetrov G., Keppel G., Khalife H., Kobychev V.V., Kolomensky Y.G., Konovalov S., Liu Y., Loaiza P., Ma L., Madhukuttan M., Mancarella F., Mariam R., Marini L., Marnieros S., Martinez M., Maruyama R.H., Mauri B., Mayer D., Mei Y., Milana S., Misiak D., Napolitano T., Nastasi M., Navick X.F., Nikkel J., Nipoti R., Nisi S., Nones C., Norman E.B., Novosad V., Nutini I., O'Donnell T., Olivieri E., Oriol C., Ouellet J.L., Pagan S., Pagliarone C., Pagnanini L., Pari P., Pattavina L., Paul B., Pavan M., Peng H., Pessina G., Pettinacci V., Pira C., Pirro S., Poda D.V., Polakovic T., Polischuk O.G., Pozzi S., Previtali E., Puiu A., Ressa A., Rizzoli R., Rosenfeld C., Rusconi C., Sanglard V., Scarpaci J., Schmidt B., Sharma V., Shlegel V., Singh V., Sisti M., Speller D., Surukuchi P.T., Taffarello L., Tellier O., Tomei C., Tretyak V.I., Tsymbaliuk A., Velazquez M., Vetter K.J., Wagaarachchi S.L., Wang G., Wang L., Welliver B., Wilson J., Wilson K., Winslow L.A., Xue M., Yan L., Yang J., Yefremenko V., Yumatov V., Zarytskyy M.M., Zhang J., Zolotarova A., Zucchelli S., Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Institut Rayonnement Matière de Saclay (IRAMIS), Science et Ingénierie des Matériaux et Procédés (SIMaP), Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes (UGA), CUPID, Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Armatol, A, Armengaud, E, Armstrong, W, Augier, C, Avignone, F, Azzolini, O, Barabash, A, Bari, G, Barresi, A, Baudin, D, Bellini, F, Benato, G, Beretta, M, Berge, L, Biassoni, M, Billard, J, Boldrini, V, Branca, A, Brofferio, C, Bucci, C, Camilleri, J, Capelli, S, Cappelli, L, Cardani, L, Carniti, P, Casali, N, Cazes, A, Celi, E, Chang, C, Chapellier, M, Charrier, A, Chiesa, D, Clemenza, M, Colantoni, I, Collamati, F, Copello, S, Cremonesi, O, Creswick, R, Cruciani, A, D'Addabbo, A, D'Imperio, G, Dafinei, I, Danevich, F, De Combarieu, M, De Jesus, M, De Marcillac, P, Dell'Oro, S, Di Domizio, S, Dompe, V, Drobizhev, A, Dumoulin, L, Fantini, G, Faverzani, M, Ferri, E, Ferri, F, Ferroni, F, Figueroa-Feliciano, E, Formaggio, J, Franceschi, A, Fu, C, Fu, S, Fujikawa, B, Gascon, J, Giachero, A, Gironi, L, Giuliani, A, Gorla, P, Gotti, C, Gras, P, Gros, M, Gutierrez, T, Han, K, Hansen, E, Heeger, K, Helis, D, Huang, H, Huang, R, Imbert, L, Johnston, J, Juillard, A, Karapetrov, G, Keppel, G, Khalife, H, Kobychev, V, Kolomensky, Y, Konovalov, S, Liu, Y, Loaiza, P, Ma, L, Madhukuttan, M, Mancarella, F, Mariam, R, Marini, L, Marnieros, S, Martinez, M, Maruyama, R, Mauri, B, Mayer, D, Mei, Y, Milana, S, Misiak, D, Napolitano, T, Nastasi, M, Navick, X, Nikkel, J, Nipoti, R, Nisi, S, Nones, C, Norman, E, Novosad, V, Nutini, I, O'Donnell, T, Olivieri, E, Oriol, C, Ouellet, J, Pagan, S, Pagliarone, C, Pagnanini, L, Pari, P, Pattavina, L, Paul, B, Pavan, M, Peng, H, Pessina, G, Pettinacci, V, Pira, C, Pirro, S, Poda, D, Polakovic, T, Polischuk, O, Pozzi, S, Previtali, E, Puiu, A, Ressa, A, Rizzoli, R, Rosenfeld, C, Rusconi, C, Sanglard, V, Scarpaci, J, Schmidt, B, Sharma, V, Shlegel, V, Singh, V, Sisti, M, Speller, D, Surukuchi, P, Taffarello, L, Tellier, O, Tomei, C, Tretyak, V, Tsymbaliuk, A, Velazquez, M, Vetter, K, Wagaarachchi, S, Wang, G, Wang, L, Welliver, B, Wilson, J, Wilson, K, Winslow, L, Xue, M, Yan, L, Yang, J, Yefremenko, V, Yumatov, V, Zarytskyy, M, Zhang, J, Zolotarova, A, Zucchelli, S |
| Jazyk: | angličtina |
| Rok vydání: | 2021 |
| Předmět: |
data analysis method
double beta decay nuclear tests of fundamental interactions Particle decays Physics - Instrumentation and Detectors double beta decay FOS: Physical sciences Cryogenics MESH: numerical calculation 01 natural sciences law.invention benchmark bolometer double-beta decay: (0neutrino) law Double beta decay 0103 physical sciences Electronic engineering MESH: benchmark [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det] numerical calculations 010306 general physics time resolution nuclear tests of fundamental interactions Physics Signal generator 010308 nuclear & particles physics Bolometer Detector Time resolution MESH: data analysis method Instrumentation and Detectors (physics.ins-det) MESH: bolometer Gran Sasso Neutrinoless Double Beta decay Neutrino Physics MESH: cryogenics efficiency cryogenics pile-up Rise time MESH: Gran Sasso Benchmark (computing) MESH: double-beta decay: (0neutrino) Neutrinoless double-beta decay MESH: efficiency Particle decays MESH: time resolution MESH: pile-up |
| Zdroj: | Physical Review C Physical Review C, American Physical Society, 2021, 104, pp.015501. ⟨10.1103/PhysRevC.104.015501⟩ Physical Review C, 2020, 104, pp.015501. ⟨10.1103/PhysRevC.104.015501⟩ Zaguán. Repositorio Digital de la Universidad de Zaragoza instname |
| ISSN: | 2469-9985 2469-9993 |
| Popis: | International audience; Precise characterization of detector time resolution is of crucial importance for next-generation cryogenic-bolometer experiments searching for neutrinoless double-beta decay, such as CUPID, in order to reject background due to pile-up of two-neutrino double-beta decay events. In this paper, we describe a technique developed to study the pile-up rejection capability of cryogenic bolometers. Our approach, which consists of producing controlled pile-up events with a programmable waveform generator, has the benefit that we can reliably and reproducibly control the time separation and relative energy of the individual components of the generated pile-up events. The resulting data allow us to optimize and benchmark analysis strategies to discriminate between individual and pile-up pulses. We describe a test of this technique performed with a small array of detectors at the Laboratori Nazionali del Gran Sasso, in Italy; we obtain a 90% rejection efficiency against pulser-generated pile-up events with rise time of ~15 ms down to time separation between the individual events of 2 ms. |
| Databáze: | OpenAIRE |
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