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JOURNAL ARTICLE

Electrically driven spin resonance in silicon carbide color centers

Paul V. KlimovAbram L. FalkBob B. BuckleyD. D. Awschalom

Year: 2013 Journal:   arXiv (Cornell University) Vol: 2014   Publisher: Cornell University
DOI: 10.48550/arxiv.1310.4844
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Abstract

We demonstrate that the spin of optically addressable point defects can be coherently driven with AC electric fields. Based on magnetic-dipole forbidden spin transitions, this scheme enables spatially confined spin control, the imaging of high-frequency electric fields, and the characterization of defect spin multiplicity. While we control defects in SiC, these methods apply to spin systems in many semiconductors, including the nitrogen-vacancy center in diamond. Electrically driven spin resonance offers a viable route towards scalable quantum control of electron spins in a dense array.

Keywords:
Spins Spin (aerodynamics) Materials science Silicon carbide Nitrogen-vacancy center Diamond Dipole Semiconductor Spin polarization Condensed matter physics Electron paramagnetic resonance Spin engineering Coherent control Optoelectronics Physics Electron Quantum Nuclear magnetic resonance

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Topics

Diamond and Carbon-based Materials Research
Physical Sciences →  Materials Science →  Materials Chemistry
Semiconductor materials and devices
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Silicon Carbide Semiconductor Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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