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Sensing chiral magnetic noise via quantum impurity relaxometry

Avinash Rustagi, Iacopo Bertelli, Toeno van der Sar, Pramey Upadhyaya

2020Physical review. B./Physical review. B32 citationsDOIOpen Access PDF

Abstract

We present a theory for quantum impurity relaxometry of magnons in thin films, exhibiting quantitative agreement with recent experiments without needing arbitrary scale factors used in theoretical models thus far. Our theory reveals that chiral coupling between prototypical $\text{spin}>1/2$ quantum impurities and magnons plays a central role in determining impurity relaxation, which is further corroborated by our experiments on nickel films interfaced with nitrogen-vacancy centers. Along with advancing magnonics and understanding decoherence in hybrid quantum platforms with magnets, the ability of a quantum impurity spin to sense chiral magnetic noise presents an opportunity to probe chiral phenomena in condensed matter.

Topics & Concepts

RelaxometryImpurityCondensed matter physicsQuantumNoise (video)Materials scienceNuclear magnetic resonancePhysicsQuantum mechanicsMagnetic resonance imagingComputer scienceSpin echoArtificial intelligenceMedicineRadiologyImage (mathematics)Topological Materials and PhenomenaQuantum and electron transport phenomenaAtomic and Subatomic Physics Research
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