Electrically and mechanically tunable electron spins in silicon carbide color centers

Abram L. Falk; \'Ad\'am Gali; Bob B. Buckley; David D. Awschalom; Greg Calusine; Igor A. Abrikosov; Paul V. Klimov; Viktor Iv\'ady; William F. Koehl

arxiv: 1311.6832 · v1 · pith:BR764FCSnew · submitted 2013-11-26 · ❄️ cond-mat.mes-hall · cond-mat.mtrl-sci· quant-ph

Electrically and mechanically tunable electron spins in silicon carbide color centers

Abram L. Falk , Paul V. Klimov , Bob B. Buckley , Viktor Iv\'ady , Igor A. Abrikosov , Greg Calusine , William F. Koehl , \'Ad\'am Gali

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David D. Awschalom

This is my paper

classification ❄️ cond-mat.mes-hall cond-mat.mtrl-sciquant-ph

keywords centerscolorelectroninteractionsspinspinsab-initiocarbide

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The electron spins of semiconductor defects can have complex interactions with their host, particularly in polar materials like SiC where electrical and mechanical variables are intertwined. By combining pulsed spin resonance with ab-initio simulations, we show that spin-spin interactions within SiC neutral divacancies give rise to spin states with an enhanced Stark effect, sub-10**-6 strain sensitivity, and highly spin-dependent photoluminescence with intensity contrasts of 15-36%. These results establish SiC color centers as compelling systems for sensing nanoscale fields.

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Electrically and mechanically tunable electron spins in silicon carbide color centers

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