Searching for Dark Matter with Paleo-Detectors

TL;DR

Paleo-detectors utilize ancient minerals to search for dark matter interactions, potentially surpassing current detection limits and reducing experimental costs compared to traditional underground experiments.

Contribution

This paper proposes using ancient minerals as paleo-detectors for dark matter, offering a novel, cost-effective detection method with sensitivity beyond current limits.

Findings

Paleo-detectors can extend sensitivity to dark matter interactions beyond existing experiments.

The approach surpasses limits set by previous ancient mineral studies.

Potential for large-scale, cost-effective dark matter detection.

Abstract

A large experimental program is underway to extend the sensitivity of direct detection experiments, searching for interaction of Dark Matter with nuclei, down to the neutrino floor. However, such experiments are becoming increasingly difficult and costly due to the large target masses and exquisite background rejection needed for the necessary improvements in sensitivity. We investigate an alternative approach to the detection of Dark Matter-nucleon interactions: Searching for the persistent traces left by Dark Matter scattering in ancient minerals obtained from much deeper than current underground laboratories. We estimate the sensitivity of paleo-detectors, which extends far beyond current upper limits for a wide range of Dark Matter masses. The sensitivity of our proposal also far exceeds the upper limits set by Snowden-Ifft et al. more than three decades ago using ancient Mica in an approach similar to paleo-detectors.