GERDA Collaboration, M. Agostini, A. Alexander, G. R. Araujo, A. M. Bakalyarov, M. Balata, I. Barabanov, L. Baudis, C. Bauer, S. Belogurov, A. Bettini, L. Bezrukov, V. Biancacci, E. Bossio, V. Bothe, R. Brugnera, A. Caldwell, S. Calgaro, C. Cattadori, A. Chernogorov, P. -J. Chiu, T. Comellato, V. D'Andrea, E. V. Demidova, N. Di Marco, E. Doroshkevich, M. Fomina, A. Gangapshev, A. Garfagnini, C. Gooch, P. Grabmayr, V. Gurentsov, K. Gusev, J. Hakenmüller, S. Hemmer, W. Hofmann, J. Huang, M. Hult, L. V. Inzhechik, J. Janicskó Csáthy, J. Jochum, M. Junker, V. Kazalov, Y. Kermaïdic, H. Khushbakht, T. Kihm, K. Kilgus, I. V. Kirpichnikov, A. Klimenko, K. T. Knöpfle, O. Kochetov, V. N. Kornoukhov, P. Krause, V. V. Kuzminov, M. Laubenstein, M. Lindner, I. Lippi, A. Lubashevskiy, B. Lubsandorzhiev, G. Lutter, C. Macolino, B. Majorovits, W. Maneschg, G. Marshall, M. Misiaszek, M. Morella, Y. Müller, I. Nemchenok, M. Neuberger, L. Pandola, K. Pelczar, L. Pertoldi, P. Piseri, A. Pullia, C. Ransom, L. Rauscher, M. Redchuk, S. Riboldi, N. Rumyantseva, C. Sada, S. Sailer, F. Salamida, S. Schönert, J. Schreiner, A-K. Schütz, O. Schulz, M. Schwarz, B. Schwingenheuer, O. Selivanenko, E. Shevchik, M. Shirchenko, L. Shtembari, H. Simgen, A. Smolnikov, D. Stukov, S. Sullivan, A. A. Vasenko, A. Veresnikova, C. Vignoli, K. von Sturm, T. Wester, C. Wiesinger, M. Wojcik, E. Yanovich, B. Zatschler, I. Zhitnikov, S. V. Zhukov, D. Zinatulina, A. Zschocke, K. Zuber, G. Zuzel
{"title":"利用 GERDA 搜寻低于两倍电子质量的新物理学","authors":"GERDA Collaboration, M. Agostini, A. Alexander, G. R. Araujo, A. M. Bakalyarov, M. Balata, I. Barabanov, L. Baudis, C. Bauer, S. Belogurov, A. Bettini, L. Bezrukov, V. Biancacci, E. Bossio, V. Bothe, R. Brugnera, A. Caldwell, S. Calgaro, C. Cattadori, A. Chernogorov, P. -J. Chiu, T. Comellato, V. D'Andrea, E. V. Demidova, N. Di Marco, E. Doroshkevich, M. Fomina, A. Gangapshev, A. Garfagnini, C. Gooch, P. Grabmayr, V. Gurentsov, K. Gusev, J. Hakenmüller, S. Hemmer, W. Hofmann, J. Huang, M. Hult, L. V. Inzhechik, J. Janicskó Csáthy, J. Jochum, M. Junker, V. Kazalov, Y. Kermaïdic, H. Khushbakht, T. Kihm, K. Kilgus, I. V. Kirpichnikov, A. Klimenko, K. T. Knöpfle, O. Kochetov, V. N. Kornoukhov, P. Krause, V. V. Kuzminov, M. Laubenstein, M. Lindner, I. Lippi, A. Lubashevskiy, B. Lubsandorzhiev, G. Lutter, C. Macolino, B. Majorovits, W. Maneschg, G. Marshall, M. Misiaszek, M. Morella, Y. Müller, I. Nemchenok, M. Neuberger, L. Pandola, K. Pelczar, L. Pertoldi, P. Piseri, A. Pullia, C. Ransom, L. Rauscher, M. Redchuk, S. Riboldi, N. Rumyantseva, C. Sada, S. Sailer, F. Salamida, S. Schönert, J. Schreiner, A-K. Schütz, O. Schulz, M. Schwarz, B. Schwingenheuer, O. Selivanenko, E. Shevchik, M. Shirchenko, L. Shtembari, H. Simgen, A. Smolnikov, D. Stukov, S. Sullivan, A. A. Vasenko, A. Veresnikova, C. Vignoli, K. von Sturm, T. Wester, C. Wiesinger, M. Wojcik, E. Yanovich, B. Zatschler, I. Zhitnikov, S. V. Zhukov, D. Zinatulina, A. Zschocke, K. Zuber, G. Zuzel","doi":"arxiv-2405.15954","DOIUrl":null,"url":null,"abstract":"A search for full energy depositions from bosonic keV-scale dark matter\ncandidates of masses between 65 keV and 1021 keV has been performed with data\ncollected during Phase II of the GERmanium Detector Array (GERDA) experiment.\nOur analysis includes direct dark matter absorption as well as dark Compton\nscattering. With a total exposure of 105.5 kg yr, no evidence for a signal\nabove the background has been observed. The resulting exclusion limits deduced\nwith either Bayesian or Frequentist statistics are the most stringent direct\nconstraints in the major part of the 140-1021 keV mass range. As an example, at\na mass of 150 keV the dimensionless coupling of dark photons and axion-like\nparticles to electrons has been constrained to $\\alpha$'/$\\alpha$ <\n8.7x10$^{-24}$ and g$_{ae}$ < 3.3x10$^{-12}$ at 90% credible interval (CI),\nrespectively. Additionally, a search for peak-like signals from beyond the\nStandard Model decays of nucleons and electrons is performed. We find for the\ninclusive decay of a single neutron in $^{76}$Ge a lower lifetime limit of\n$\\tau_n$ > 1.5x10$^{24}$ yr and for a proton $\\tau_p$ > 1.3x10$^{24}$ yr at 90%\nCI. For the electron decay e$^-\\rightarrow\\nu_e\\gamma$ a lower limit of\n$\\tau_e$ > 5.4x10$^{25}$ yr at 90% CI has been determined.","PeriodicalId":501206,"journal":{"name":"arXiv - PHYS - Nuclear Experiment","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-05-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Searches for new physics below twice the electron mass with GERDA\",\"authors\":\"GERDA Collaboration, M. Agostini, A. Alexander, G. R. Araujo, A. M. Bakalyarov, M. Balata, I. Barabanov, L. Baudis, C. Bauer, S. Belogurov, A. Bettini, L. Bezrukov, V. Biancacci, E. Bossio, V. Bothe, R. Brugnera, A. Caldwell, S. Calgaro, C. Cattadori, A. Chernogorov, P. -J. Chiu, T. Comellato, V. D'Andrea, E. V. Demidova, N. Di Marco, E. Doroshkevich, M. Fomina, A. Gangapshev, A. Garfagnini, C. Gooch, P. Grabmayr, V. Gurentsov, K. Gusev, J. Hakenmüller, S. Hemmer, W. Hofmann, J. Huang, M. Hult, L. V. Inzhechik, J. Janicskó Csáthy, J. Jochum, M. Junker, V. Kazalov, Y. Kermaïdic, H. Khushbakht, T. Kihm, K. Kilgus, I. V. Kirpichnikov, A. Klimenko, K. T. Knöpfle, O. Kochetov, V. N. Kornoukhov, P. Krause, V. V. Kuzminov, M. Laubenstein, M. Lindner, I. Lippi, A. Lubashevskiy, B. Lubsandorzhiev, G. Lutter, C. Macolino, B. Majorovits, W. Maneschg, G. Marshall, M. Misiaszek, M. Morella, Y. Müller, I. Nemchenok, M. Neuberger, L. Pandola, K. Pelczar, L. Pertoldi, P. Piseri, A. Pullia, C. Ransom, L. Rauscher, M. Redchuk, S. Riboldi, N. Rumyantseva, C. Sada, S. Sailer, F. Salamida, S. Schönert, J. Schreiner, A-K. Schütz, O. Schulz, M. Schwarz, B. Schwingenheuer, O. Selivanenko, E. Shevchik, M. Shirchenko, L. Shtembari, H. Simgen, A. Smolnikov, D. Stukov, S. Sullivan, A. A. Vasenko, A. Veresnikova, C. Vignoli, K. von Sturm, T. Wester, C. Wiesinger, M. Wojcik, E. Yanovich, B. Zatschler, I. Zhitnikov, S. V. Zhukov, D. Zinatulina, A. Zschocke, K. Zuber, G. Zuzel\",\"doi\":\"arxiv-2405.15954\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"A search for full energy depositions from bosonic keV-scale dark matter\\ncandidates of masses between 65 keV and 1021 keV has been performed with data\\ncollected during Phase II of the GERmanium Detector Array (GERDA) experiment.\\nOur analysis includes direct dark matter absorption as well as dark Compton\\nscattering. With a total exposure of 105.5 kg yr, no evidence for a signal\\nabove the background has been observed. The resulting exclusion limits deduced\\nwith either Bayesian or Frequentist statistics are the most stringent direct\\nconstraints in the major part of the 140-1021 keV mass range. As an example, at\\na mass of 150 keV the dimensionless coupling of dark photons and axion-like\\nparticles to electrons has been constrained to $\\\\alpha$'/$\\\\alpha$ <\\n8.7x10$^{-24}$ and g$_{ae}$ < 3.3x10$^{-12}$ at 90% credible interval (CI),\\nrespectively. Additionally, a search for peak-like signals from beyond the\\nStandard Model decays of nucleons and electrons is performed. We find for the\\ninclusive decay of a single neutron in $^{76}$Ge a lower lifetime limit of\\n$\\\\tau_n$ > 1.5x10$^{24}$ yr and for a proton $\\\\tau_p$ > 1.3x10$^{24}$ yr at 90%\\nCI. For the electron decay e$^-\\\\rightarrow\\\\nu_e\\\\gamma$ a lower limit of\\n$\\\\tau_e$ > 5.4x10$^{25}$ yr at 90% CI has been determined.\",\"PeriodicalId\":501206,\"journal\":{\"name\":\"arXiv - PHYS - Nuclear Experiment\",\"volume\":null,\"pages\":null},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2024-05-24\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"arXiv - PHYS - Nuclear Experiment\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/arxiv-2405.15954\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"arXiv - PHYS - Nuclear Experiment","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/arxiv-2405.15954","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
Searches for new physics below twice the electron mass with GERDA
A search for full energy depositions from bosonic keV-scale dark matter
candidates of masses between 65 keV and 1021 keV has been performed with data
collected during Phase II of the GERmanium Detector Array (GERDA) experiment.
Our analysis includes direct dark matter absorption as well as dark Compton
scattering. With a total exposure of 105.5 kg yr, no evidence for a signal
above the background has been observed. The resulting exclusion limits deduced
with either Bayesian or Frequentist statistics are the most stringent direct
constraints in the major part of the 140-1021 keV mass range. As an example, at
a mass of 150 keV the dimensionless coupling of dark photons and axion-like
particles to electrons has been constrained to $\alpha$'/$\alpha$ <
8.7x10$^{-24}$ and g$_{ae}$ < 3.3x10$^{-12}$ at 90% credible interval (CI),
respectively. Additionally, a search for peak-like signals from beyond the
Standard Model decays of nucleons and electrons is performed. We find for the
inclusive decay of a single neutron in $^{76}$Ge a lower lifetime limit of
$\tau_n$ > 1.5x10$^{24}$ yr and for a proton $\tau_p$ > 1.3x10$^{24}$ yr at 90%
CI. For the electron decay e$^-\rightarrow\nu_e\gamma$ a lower limit of
$\tau_e$ > 5.4x10$^{25}$ yr at 90% CI has been determined.
求助内容:
应助结果提醒方式:
京公网安备 11010802042870号
