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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Carbon-ion implantation in diamond produces NV centers whose spatial distribution and spin properties enable reconstruction of single-ion damage tracks at millimeter-to-nanoscale resolution, aided by simulation and machine learning.
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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Multi-scale reconstruction of single-ion damage tracks in diamond via nitrogen-vacancy centers
Carbon-ion implantation in diamond produces NV centers whose spatial distribution and spin properties enable reconstruction of single-ion damage tracks at millimeter-to-nanoscale resolution, aided by simulation and machine learning.