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Literature DB >> 25437259

Isolated electron spins in silicon carbide with millisecond coherence times.

David J Christle¹, Abram L Falk², Paolo Andrich¹, Paul V Klimov¹, Jawad Ul Hassan³, Nguyen T Son³, Erik Janzén³, Takeshi Ohshima⁴, David D Awschalom¹.

Abstract

The elimination of defects from SiC has facilitated its move to the forefront of the optoelectronics and power-electronics industries. Nonetheless, because certain SiC defects have electronic states with sharp optical and spin transitions, they are increasingly recognized as a platform for quantum information and nanoscale sensing. Here, we show that individual electron spins in high-purity monocrystalline 4H-SiC can be isolated and coherently controlled. Bound to neutral divacancy defects, these states exhibit exceptionally long ensemble Hahn-echo spin coherence times, exceeding 1 ms. Coherent control of single spins in a material amenable to advanced growth and microfabrication techniques is an exciting route towards wafer-scale quantum technologies.

Entities: Chemical Disease

Year: 2014 PMID： 25437259 DOI： 10.1038/nmat4144

Source DB: PubMed Journal: Nat Mater ISSN： 1476-1122 Impact factor: 43.841

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10. Room temperature coherent spin alignment of silicon vacancies in 4H- and 6H-SiC.

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