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Autori principali: Bloch, Itay M., Knapen, Simon, Madden, Amalia, Marocco, Giacomo
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2411.10542
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author Bloch, Itay M.
Knapen, Simon
Madden, Amalia
Marocco, Giacomo
author_facet Bloch, Itay M.
Knapen, Simon
Madden, Amalia
Marocco, Giacomo
contents We show that axion dark matter in the range meV $\lesssim m_a\lesssim$ 100 meV can incoherently excite phonons in crystal targets with unpolarised nuclear spins. This can occur through its coupling to nuclear spins and/or through its induced time-dependent electric dipole moment in nuclei. Due to the random orientation of the nuclear spins, translation symmetry is broken in the phonon effective theory, allowing axion absorption to create phonons with unrestricted momentum. The absorption rate is therefore proportional to the phonon density of states, which generically has support across a wide range of energies, allowing for a broadband detection scheme. We calculate the absorption rate for solid $\text{H}_2$, $\text{D}_2$, $\text{Al}_2\text{O}_3$, $\text{GaAs}$, $\text{H}_2\text{O}$, $\text{D}_2\text{O}$, $\text{Be}$ and $\text{Li}_2 \text{O}$, and find that materials containing light, non-zero spin nuclei are the most promising. The predicted rates for the QCD axion are of the order of a few events / 10 kg-year exposure, setting an ambitious target for the required exposure and background suppression.
format Preprint
id arxiv_https___arxiv_org_abs_2411_10542
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Broadband phonon production from axion absorption
Bloch, Itay M.
Knapen, Simon
Madden, Amalia
Marocco, Giacomo
High Energy Physics - Phenomenology
We show that axion dark matter in the range meV $\lesssim m_a\lesssim$ 100 meV can incoherently excite phonons in crystal targets with unpolarised nuclear spins. This can occur through its coupling to nuclear spins and/or through its induced time-dependent electric dipole moment in nuclei. Due to the random orientation of the nuclear spins, translation symmetry is broken in the phonon effective theory, allowing axion absorption to create phonons with unrestricted momentum. The absorption rate is therefore proportional to the phonon density of states, which generically has support across a wide range of energies, allowing for a broadband detection scheme. We calculate the absorption rate for solid $\text{H}_2$, $\text{D}_2$, $\text{Al}_2\text{O}_3$, $\text{GaAs}$, $\text{H}_2\text{O}$, $\text{D}_2\text{O}$, $\text{Be}$ and $\text{Li}_2 \text{O}$, and find that materials containing light, non-zero spin nuclei are the most promising. The predicted rates for the QCD axion are of the order of a few events / 10 kg-year exposure, setting an ambitious target for the required exposure and background suppression.
title Broadband phonon production from axion absorption
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2411.10542