What question did this study set out to answer?

The aim is to explore the properties of dark matter through underground experiments and identify future improvements needed for sensitivity.

March 26, 2026Open Access

Progress and prospects in the underground laboratories' search for dark matter

Key Points

The aim is to explore the properties of dark matter through underground experiments and identify future improvements needed for sensitivity.
Review past and current dark matter experiments in underground laboratories.
Examine technologies developed for different types of dark matter particles.
Discuss improvements required for future detectors.
Highlighted the advancements in underground dark matter experimental techniques.
Noted the importance of enhanced detector sensitivity.
Emphasized implications for understanding the fundamental properties of dark matter.

Abstract

Dark matter constitutes approximately 85% of the universe’s total mass, yet its nature remains a mystery. Beyond its gravitational effects, little is known about its fundamental properties. Various technologies sensitive to different types of dark matter particles have been developed to explore the vast parameter space and cross-check each other’s results. In this perspective, we review the progress of past and current dark matter experiments in underground laboratories and discuss the improvements needed for future detectors and their sensitivity prospects. The authors review advancements in underground dark matter experiments, highlighting the need for enhanced detector sensitivity to unravel dark matter’s fundamental properties, with implications for astrophysics and cosmology.

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Progress and prospects in the underground laboratories' search for dark matter

Key Points

Abstract

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