Searches for new physics below twice the electron mass with GERDA

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.; Hakenm\"uller; S. Hemmer; W. Hofmann; J. Huang; M. Hult; L. V. Inzhechik; J.; Janicsk\'o Cs\'athy; J. Jochum; M. Junker; V. Kazalov; Y. Kerma\"idic; H.; Khushbakht; T. Kihm; K. Kilgus; I. V. Kirpichnikov; A. Klimenko; K. T.; Kn\"opfle; 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. M\"uller; 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. Sch\"onert; J.; Schreiner; A-K. Sch\"utz; 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; and G.; Zuzel

arXiv:2405.15954·nucl-ex·May 28, 2024

Searches for new physics below twice the electron mass with GERDA

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

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TL;DR

This paper reports on a search for bosonic dark matter and rare decay processes using GERDA data, setting new constraints on dark matter interactions and particle decay lifetimes in the keV to MeV mass range.

Contribution

The study provides the most stringent direct constraints on bosonic dark matter candidates and decay lifetimes of nucleons and electrons in the specified mass range.

Findings

01

No evidence for dark matter signals was observed.

02

Established new upper limits on dark photon and axion-like particle couplings.

03

Set lower lifetime limits for neutron, proton, and electron decays.

Abstract

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 $α$ '/ $α$ < 8.7x10 $^{- 24}$ and g $_{a e}$ < 3.3x10 $^{- 12}$ at 90% credible interval (CI), respectively. Additionally, a search for peak-like signals from…

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Computational Physics and Python Applications · Dark Matter and Cosmic Phenomena