Kavli Affiliate: Noah A. Kurinsky
| First 5 Authors: Sebastian Baum, Patrick Stengel, Natsue Abe, Javier F. Acevedo, Gabriela R. Araujo
| Summary:
Minerals are solid state nuclear track detectors – nuclear recoils in a
mineral leave latent damage to the crystal structure. Depending on the mineral
and its temperature, the damage features are retained in the material from
minutes (in low-melting point materials such as salts at a few hundred degrees
C) to timescales much larger than the 4.5 Gyr-age of the Solar System (in
refractory materials at room temperature). The damage features from the $O(50)$
MeV fission fragments left by spontaneous fission of $^{238}$U and other heavy
unstable isotopes have long been used for fission track dating of geological
samples. Laboratory studies have demonstrated the readout of defects caused by
nuclear recoils with energies as small as $O(1)$ keV. This whitepaper discusses
a wide range of possible applications of minerals as detectors for $E_R gtrsim
O(1)$ keV nuclear recoils: Using natural minerals, one could use the damage
features accumulated over $O(10)$ Myr$-O(1)$ Gyr to measure astrophysical
neutrino fluxes (from the Sun, supernovae, or cosmic rays interacting with the
atmosphere) as well as search for Dark Matter. Using signals accumulated over
months to few-years timescales in laboratory-manufactured minerals, one could
measure reactor neutrinos or use them as Dark Matter detectors, potentially
with directional sensitivity. Research groups in Europe, Asia, and America have
started developing microscopy techniques to read out the $O(1) – O(100)$ nm
damage features in crystals left by $O(0.1) – O(100)$ keV nuclear recoils. We
report on the status and plans of these programs. The research program towards
the realization of such detectors is highly interdisciplinary, combining
geoscience, material science, applied and fundamental physics with techniques
from quantum information and Artificial Intelligence.
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