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Coherent Quantum Control of Silicon Vacancy Spins in Diamond with Surface Acoustics

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Abstract

We use surface acoustic waves (SAWs) to drive coherent Rabi oscillations of individual silicon vacancy (SiV) spins. Rabi frequencies as high as 48 MHz are obtained with 4 mW total input power. Ramsey interferometry is used to measure a spin coherence of 29 ns at 5.8 Kelvin.

© 2019 The Author(s)

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