Paleo-detectors can achieve high sensitivity to sub-GeV dark matter boosted by cosmic rays and supernovae, covering previously inaccessible parameter space with orders of magnitude better reach than current experiments.
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Heavy-ion tracks in olivine exhibit a clear change in continuity at the electronic-to-nuclear stopping transition, confirming the mineral's suitability for paleo-detection of neutrinos and WIMPs at MeV energies.
citing papers explorer
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Probing Cosmic-Ray-Boosted and Supernova-Sourced Sub-GeV Dark Matter with Paleo-Detectors
Paleo-detectors can achieve high sensitivity to sub-GeV dark matter boosted by cosmic rays and supernovae, covering previously inaccessible parameter space with orders of magnitude better reach than current experiments.
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Toward Neutrino and Dark Matter Detection with Ancient Minerals: TEM Study of Heavy-Ion Tracks in Olivine
Heavy-ion tracks in olivine exhibit a clear change in continuity at the electronic-to-nuclear stopping transition, confirming the mineral's suitability for paleo-detection of neutrinos and WIMPs at MeV energies.