Salvato in:
Dettagli Bibliografici
Autori principali: Liu, C. -P., Pandey, Mukesh K., Singh, Lakhwinder, Wu, Chih-Pan, Chen, Jiunn-Wei, Chi, Hsin-Chang, Wong, Henry T.
Natura: Preprint
Pubblicazione: 2024
Soggetti:
Accesso online:https://arxiv.org/abs/2501.04020
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866911711575932928
author Liu, C. -P.
Pandey, Mukesh K.
Singh, Lakhwinder
Wu, Chih-Pan
Chen, Jiunn-Wei
Chi, Hsin-Chang
Wong, Henry T.
author_facet Liu, C. -P.
Pandey, Mukesh K.
Singh, Lakhwinder
Wu, Chih-Pan
Chen, Jiunn-Wei
Chi, Hsin-Chang
Wong, Henry T.
contents Direct searches of dark matter candidates with mass energies less than 1 GeV is an active research field. The energy depositions are comparable to the scale of atomic, molecular, or condensed matter systems, therefore many-body physics plays an important role in understanding the detector's response in dark matter scattering. We present in this work a comprehensive data set of atomic response functions for xenon and germanium with 12.2 and 80 eV energy thresholds, respectively, using the (multiconfiguration) relativistic random phase approximation. This approach takes into account the relativistic, exchange, and correlation effects in one self-consistent framework, and is benchmarked successfully by photoabsorption data from thresholds to 30 keV with $\lesssim5\%$ errors. Comparisons with our previous and some other independent particle approaches in literature are made. It is also found that the spin-dependent (SD) response has significant difference from the spin-independent (SI) one such that the dark matter SD and SI interactions with electrons can be distinguished in unpolarized scattering, which is typical for direct search detectors. Finally, the exclusion limits set by current experiments are updated with our new results.
format Preprint
id arxiv_https___arxiv_org_abs_2501_04020
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Many-body atomic response functions of xenon and germanium for leading-order sub-GeV dark matter-electron interactions in effective field theory
Liu, C. -P.
Pandey, Mukesh K.
Singh, Lakhwinder
Wu, Chih-Pan
Chen, Jiunn-Wei
Chi, Hsin-Chang
Wong, Henry T.
Cosmology and Nongalactic Astrophysics
High Energy Physics - Experiment
High Energy Physics - Phenomenology
Direct searches of dark matter candidates with mass energies less than 1 GeV is an active research field. The energy depositions are comparable to the scale of atomic, molecular, or condensed matter systems, therefore many-body physics plays an important role in understanding the detector's response in dark matter scattering. We present in this work a comprehensive data set of atomic response functions for xenon and germanium with 12.2 and 80 eV energy thresholds, respectively, using the (multiconfiguration) relativistic random phase approximation. This approach takes into account the relativistic, exchange, and correlation effects in one self-consistent framework, and is benchmarked successfully by photoabsorption data from thresholds to 30 keV with $\lesssim5\%$ errors. Comparisons with our previous and some other independent particle approaches in literature are made. It is also found that the spin-dependent (SD) response has significant difference from the spin-independent (SI) one such that the dark matter SD and SI interactions with electrons can be distinguished in unpolarized scattering, which is typical for direct search detectors. Finally, the exclusion limits set by current experiments are updated with our new results.
title Many-body atomic response functions of xenon and germanium for leading-order sub-GeV dark matter-electron interactions in effective field theory
topic Cosmology and Nongalactic Astrophysics
High Energy Physics - Experiment
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2501.04020