Quantum Detection using Magnetic Avalanches in Single-Molecule Magnets

TL;DR

This paper demonstrates the use of single-molecule magnets as particle detectors by inducing magnetic avalanches through quantum scattering, paving the way for sensitive detection of low-energy particles like dark matter.

Contribution

First experimental demonstration of magnetic avalanches in SMMs triggered by quantum scattering, establishing a new method for particle detection.

Findings

Magnetic avalanches can be induced by quantum scattering in SMMs.

SMMs can serve as particle detectors with potential for low-energy detection.

Current setup detects MeV energy depositions, with potential for sub-eV detection.

Abstract

The detection of a single quantum of energy with high efficiency and low false positive rate is of considerable scientific interest, from serving as single quantum sensors of optical and infra-red photons to enabling the direct detection of low-mass dark matter. We report the first experimental demonstration of magnetic avalanches induced by scattering of quanta in single-molecule magnet (SMM) crystals made of Mn12-acetate, establishing the use of SMMs as particle detectors for the first time. While the current setup has an energy threshold in the MeV regime, our results motivate the exploration of a wide variety of SMMs whose properties could allow for detection of sub-eV energy depositions.