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Room temperature coherent control of spin defects in hexagonal boron nitride

Andreas Gottscholl, Matthias Diez, Victor Soltamov, Christian Kasper, Andreas Sperlich, Mehran Kianinia, Carlo Bradac, Igor Aharonovich, Vladimir Dyakonov

2021Science Advances201 citationsDOIOpen Access PDF

Abstract

Optically active spin defects are promising candidates for solid-state quantum information and sensing applications. To use these defects in quantum applications coherent manipulation of their spin state is required. Here, we realize coherent control of ensembles of boron vacancy centers in hexagonal boron nitride (hBN). Specifically, by applying pulsed spin resonance protocols, we measure a spin-lattice relaxation time of 18 microseconds and a spin coherence time of 2 microseconds at room temperature. The spin-lattice relaxation time increases by three orders of magnitude at cryogenic temperature. By applying a method to decouple the spin state from its inhomogeneous nuclear environment the optically detected magnetic resonance linewidth is substantially reduced to several tens of kilohertz. Our results are important for the employment of van der Waals materials for quantum technologies, specifically in the context of high resolution quantum sensing of two-dimensional heterostructures, nanoscale devices, and emerging atomically thin magnets.

Topics & Concepts

Laser linewidthCondensed matter physicsCoherence (philosophical gambling strategy)MicrosecondMaterials scienceCoherent controlSpin (aerodynamics)Coherence timeContext (archaeology)PolaritonBoron nitrideRelaxation (psychology)van der Waals forceQuantum decoherenceSpin statesNitrogen-vacancy centerQuantumHexagonal boron nitrideResonance (particle physics)OptoelectronicsSpin engineeringQuantum dotNanoscopic scaleQuantum sensorMolecular physicsVacancy defectPhysicsSpin waveMeasure (data warehouse)Quantum informationOptical physicsQuantum and electron transport phenomenaDiamond and Carbon-based Materials ResearchGraphene research and applications
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