Theory of optically detected magnetic resonance of a silicon vacancy in SiC: A
quantum sensor of magnetic fields

David Fehr; Hannes Kraus; Corey J. Cochrane; Michael Flatté

doi:10.1117/12.2678140

5 October 2023 Theory of optically detected magnetic resonance of a silicon vacancy in SiC: A quantum sensor of magnetic fields

David Fehr, Hannes Kraus, Corey J. Cochrane, Michael Flatté

Author Affiliations +

Proceedings Volume PC12656, Spintronics XVI; PC126561V (2023) https://doi.org/10.1117/12.2678140
Event: SPIE Nanoscience + Engineering, 2023, San Diego, California, United States

Abstract

Magnetometers have applications in many aspects of our lives: from navigation, the detection of submarines, and mobile phones to the exploration of our solar system. Recently, solid-state magnetometers have stimulated interest due to their smaller size, weight, and power compared to existing magnetometers, and their potential to self-calibrate; two features which improve the efficiency of any device carrying a magnetometer. In this work we model optically detected magnetic resonance of the silicon vacancy in 6H-SiC, a budding candidate for solid-state quantum magnetometry. We model photoluminescence with steady-state density matrix populations and Lindblad master equations, and compare to recent experimental results.

Conference Presentation

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David Fehr, Hannes Kraus, Corey J. Cochrane, and Michael Flatté "Theory of optically detected magnetic resonance of a silicon vacancy in SiC: A quantum sensor of magnetic fields", Proc. SPIE PC12656, Spintronics XVI, PC126561V (5 October 2023); https://doi.org/10.1117/12.2678140

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KEYWORDS

Magnetism

Detection theory

Quantum detection

Quantum fields

Silicon

Quantum magnetometry

Silicon carbide

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