Speaker
Description
The DAREDEVIL (DARk-mattEr-DEVIces-for-Low-energy-detection) is a new project aiming
to develop a novel class of detectors to study Dark Matter candidates with mass below 1
GeV/c²
. The detection channel is DM-electron scattering, where the excitation energies of
the electrons should be matched to the transferred momenta. The only materials with energy
gaps of eV or below are special semiconductors, Dirac Semimetals, Weyl Semimetals, and
Scintillators. Such materials, already explored from a theoretical point of view, will be
implemented in a detector as planned by the DAREDEVIL project. The first phase of the
project aims at designing a novel class of gram-scale detectors with meV threshold suitable
for light DM-electron scattering detection. In order to achieve the high performances needed
for detecting such small energy depositions, we will use these crystals as absorbers in
low-temperature calorimeters with dual phonon and IR-photon readout. In this contribution,
we present the very first results of a low-temperature calorimeter based on GaAs as the
target crystal, operated at 15 mK, coupled to a Neutron Transmutation Doped thermistor for
the phonon readout. Furthermore, we have conducted the first tests of the double readout
technique with a germanium light detector utilizing the Luke effect, and in the future, we
aim to test CdTeHg-based photon detector tuned to detect its IR scintillation light.
| Parallel session | New Physics Searches: Dark Matter and High-Frequency Gravitational Waves |
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