Impact of Neutron Irradiation on LGADs with a Carbon-Enriched Shallow Multiplication Layer: Degradation of Timing Performance and Gain

Autor: Ramos, E. Navarrete, Duarte-Campderros, J., Fernández, M., Gómez, G., González, J., Hidalgo, S., Jaramillo, R., del Árbol, P. Martínez Ruiz, Moll, M., Quintana, C., Sikdar, A. K., Vila, I., Villegas, J.

In this radiation tolerance study, Low Gain Avalanche Detectors (LGADs) with a carbon-enriched broad and shallow multiplication layer were examined in comparison to identical non-carbonated LGADs. Manufactured at IMB-CNM, the sensors underwent neutro

Externí odkaz: http://arxiv.org/abs/2406.01267

First Constraints from DAMIC-M on Sub-GeV Dark-Matter Particles Interacting with Electrons

Autor: Arnquist, I., Avalos, N., Baxter, D., Bertou, X., Castello-Mor, N., Chavarria, A. E., Cuevas-Zepeda, J., Gutierrez, J. Cortabitarte, Duarte-Campderros, J., Dastgheibi-Fard, A., Deligny, O., De Dominicis, C., Estrada, E., Gadola, N., Gaıor, R., Hossbach, T., Iddir, L., Khalil, L., Kilminster, B., Lantero-Barreda, A., Lawson, I., Lee, S., Letessier-Selvon, A., Loaiza, P., Lopez-Virto, A., Matalon, A., Munagavalasa, S., McGuire, K., Mitra, P., Norcini, D., Papadopoulos, G., Paul, S., Piers, A., Privitera, P., Ramanathan, K., Robmann, P., Settimo, M., Smida, R., Thomas, R., Traina, M., Vila, I., Vilar, R., Warot, G., Yajur, R., Zopounidis, J-P.

Publikováno v: Phys. Rev. Lett. 130, 171003 (2023)

We report constraints on sub-GeV dark matter particles interacting with electrons from the first underground operation of DAMIC-M detectors. The search is performed with an integrated exposure of 85.23 g days, and exploits the subelectron charge reso

Externí odkaz: http://arxiv.org/abs/2302.02372

Precision measurement of Compton scattering in silicon with a skipper CCD for dark matter detection

Autor: Norcini, D., Castello-Mor, N., Baxter, D., Corso, N. J., Cuevas-Zepeda, J., De Dominicis, C., Matalon, A., Munagavalasa, S., Paul, S., Privitera, P., Ramanathan, K., Smida, R., Thomas, R., Yajur, R., Chavarria, A. E., McGuire, K., Mitra, P., Piers, A., Settimo, M., Gutierrez, J. Cortabitarte, Duarte-Campderros, J., Lantero-Barreda, A., Lopez-Virto, A., Vila, I., Vilar, R., Avalos, N., Bertou, X., Dastgheibi-Fard, A., Deligny, O., Estrada, E., Gadloa, N., Gaior, R., Hossbach, T., Khalil, L., Kilminster, B., Lawson, I., Lee, S., Letessier-Selvon, A., Loaiza, P., Papadopoulos, G., Robmann, P., Traina, M., Warot, G., Zopounidis, J-P.

Publikováno v: 3 November 2022

Experiments aiming to directly detect dark matter through particle recoils can achieve energy thresholds of $\mathcal{O}(1\,\mathrm{eV})$. In this regime, ionization signals from small-angle Compton scatters of environmental $\gamma$-rays constitute

Externí odkaz: http://arxiv.org/abs/2207.00809

Test beam characterization of sensor prototypes for the CMS Barrel MIP Timing Detector

Autor: Abbott, R., Abreu, A., Addesa, F., Alhusseini, M., Anderson, T., Andreev, Y., Apresyan, A., Arcidiacono, R., Arenton, M., Auffray, E., Bastos, D., Bauerdick, L. A. T., Bellan, R., Bellato, M., Benaglia, A., Benettoni, M., Bertoni, R., Besancon, M., Bharthuar, S., Bornheim, A., Brücken, E., Butler, J. N., Campagnari, C., Campana, M., Carlin, R., Carniti, P., Cartiglia, N., Casarsa, M., Cerri, O., Checchia, P., Chen, H., Chidzik, S., Chlebana, F., Cossutti, F., Costa, M., Cox, B., Dafinei, I., De Guio, F., Debbins, P., del Re, D., Dermenev, A., Di Marco, E., Dilsiz, K., Di Petrillo, K. F., Dissertori, G., Dogra, S., Dosselli, U., Dutta, I., Caleb, F., Madrazo, C. Fernandez, Fernandez, M., Ferrero, M., Flowers, Z., Funk, W., Gallinaro, M., Ganjour, S., Gardner, M., Geurts, F., Ghezzi, A., Gninenko, S., Golf, F., Gonzalez, J., Gotti, C., Gray, L., Guilloux, F., Gundacker, S., Hazen, E., Hedia, S., Heering, A., Heller, R., Isidori, T., Isocrate, R., Jaramillo, R., Joyce, M., Kaadze, K., Karneyeu, A., Kim, H., King, J., Kopp, G., Korjik, M., Koseyan, O. K., Kozyrev, A., Kratochwil, N., Lazarovits, M., Ledovskoy, A., Lee, H., Lee, J., Li, A., Li, S., Li, W., Liu, T., Lu, N., Lucchini, M., Lustermann, W., Madrid, C., Malberti, M., Mandjavize, I., Mao, J., Maravin, Y., Marlow, D., Marsh, B., del Arbol, P. Martinez, Marzocchi, B., Mazza, R., McMahon, C., Mechinsky, V., Meridiani, P., Mestvirishvili, A., Minafra, N., Mohammadi, A., Monti, F., Moon, C. S., Mulargia, R., Murray, M., Musienko, Y., Nachtman, J., Nargelas, S., Narvaez, L., Neogi, O., Neu, C., Niknejad, T., Obertino, M., Ogul, H., Oh, G., Ojalvo, I., Onel, Y., Organtini, G., Orimoto, T., Ott, J., Ovtin, I., Paganoni, M., Pandolfi, F., Paramatti, R., Peck, A., Perez, C., Pessina, G., Pena, C., Pigazzini, S., Radchenko, O., Redaelli, N., Rigoni, D., Robutti, E., Rogan, C., Rossin, R., Rovelli, C., Royon, C., Sahin, M. Ö., Sands, W., Santanastasio, F., Sarica, U., Schmidt, I., Schmitz, R., Sheplock, J., Silva, J. C., Siviero, F., Soffi, L., Sola, V., Sorrentino, G., Spiropulu, M., Spitzbart, D., Leiton, A. G. Stahl, Staiano, A., Stuart, D., Suarez, I., de Fatis, T. Tabarelli, Tamulaitis, G., Tang, Y., Tannenwald, B., Taylor, R., Tiras, E., Titov, M., Tkaczyk, S., Tlisov, D., Tlisova, I., Tornago, M., Tosi, M., Tramontano, R., Trevor, J., Tully, C. G., Ujvari, B., Varela, J., Ventura, S., Vila, I., Wamorkar, T., Wang, C., Wang, X., Wayne, M., Wetzel, J., White, S., Winn, D., Wu, S., Xie, S., Ye, Z., Yu, G. B., Zhang, G., Zhang, L., Zhang, Y., Zhang, Z., Zhu, R.

Publikováno v: Journal of Instrumentation, Volume 16, July 2021

The MIP Timing Detector will provide additional timing capabilities for detection of minimum ionizing particles (MIPs) at CMS during the High Luminosity LHC era, improving event reconstruction and pileup rejection. The central portion of the detector

Externí odkaz: http://arxiv.org/abs/2104.07786

Detector Technologies for CLIC

Autor: Hoffman, A. C. Abusleme, Parès, G., Fritzsch, T., Rothermund, M., Jansen, H., Krüger, K., Sefkow, F., Velyka, A., Schwandt, J., Perić, I., Emberger, L., Graf, C., Macchiolo, A., Simon, F., Szalay, M., van der Kolk, N., Abramowicz, H., Benhammou, Y., Borysov, O., Borysova, M., Joffe, A., Kananov, S., Levy, A., Levy, I., Eigen, G., Bugiel, R., Bugiel, S., Firlej, M., Fiutowski, T. A., Idzik, M., Moroń, J., Świentek, K. P., Terlecki, P., de Renstrom, P. Brückman, Turbiarz, B., Wojtoń, T., Zawiejski, L. K., Firu, E., Ghenescu, V., Neagu, A. T., Preda, T., Boyko, I., Nefedov, Yu., Rymbekova, A., Sapronov, A., Shelkov, G., Zhemchugov, A., Ruiz-Jimeno, A., Vila, I., Fullana, E., Fuster, J., Lopez, P. Gomis, Perelló, M., Villarejo, M. A., Vos, M., Alozy, J., Tehrani, N. Alipour, Arominski, D., Sune, R. Ballabriga, Boyer, F., Brondolin, E., Buckland, M., Campbell, M., Dannheim, D., Dette, K., Ramos, F. Duarte, Plaja, N. Egidos, Elsener, K., Fiergolski, A., Rojas, C. Fuentes, Grefe, C., Hynds, D., Klempt, W., Kremastiotis, I., Kröger, J., Kulis, S., Leogrande, E., Linssen, L., Cudie, X. Llopart, Lucaci-Timoce, A., Munker, M., Musa, L., Nürnberg, A., Nuiry, F. -X., Codina, E. Perez, Pernegger, H., Petrič, M., Pitters, F., Quast, T., Redford, S., Riedler, P., Roloff, P., Sailer, A., Santin, E., Schnoor, U., Sicking, E., Sielewicz, K., Simoniello, R., Snoeys, W., Spannagel, S., Sroka, S., Ström, R., Valerio, P., van Dam, S., van der Kraaij, E., Vǎnát, T., Viazlo, O., Pinto, M. Vicente Barreto, Weber, M. A., Williams, M., Wolters, K., Benoit, M., Iacobucci, G., Sultan, D M S, Bosley, R. R., Price, T., Watson, M. F., Watson, N. K., Winter, A. G., Goldstein, J., Green, S., Marshall, J. S., Thomson, M. A., Xu, B., Casse, G., Vossebeld, J., Coates, T., Salvatore, F., Repond, J., Xia, L., Kenney, C., Tomada, A.

The Compact Linear Collider (CLIC) is a high-energy high-luminosity linear electron-positron collider under development. It is foreseen to be built and operated in three stages, at centre-of-mass energies of 380 GeV, 1.5 TeV and 3 TeV, respectively.

Externí odkaz: http://arxiv.org/abs/1905.02520