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Relation between the Migdal Effect and Dark Matter-Electron Scattering in Isolated Atoms and Semiconductors

Rouven Essig, Josef Pradler, Mukul Sholapurkar, T. Yu

2020Physical Review Letters143 citationsDOIOpen Access PDF

Abstract

A key strategy for sub-GeV dark matter direct detection is searches for small ionization signals that arise from dark matter-electron scattering or from the "Migdal" effect in dark matter-nucleus scattering. We show that the theoretical description of both processes is closely related, allowing for a principal mapping between them. We explore this for noble-liquid targets and, for the first time, estimate the Migdal effect in semiconductors using a crystal form factor. We present new constraints using XENON10, XENON100, and SENSEI data, and give projections for proposed experiments.

Topics & Concepts

PhysicsScatteringDark matterElectronSemiconductorElectron scatteringIonizationAtomic physicsNuclear physicsAstrophysicsOpticsQuantum mechanicsIonDark Matter and Cosmic PhenomenaAtomic and Subatomic Physics ResearchParticle physics theoretical and experimental studies