Diamond Radio Receiver: Nitrogen-Vacancy Centers as Fluorescent Transducers of Microwave Signals
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Title
Diamond Radio Receiver: Nitrogen-Vacancy Centers as Fluorescent Transducers of Microwave Signals
Authors
Keywords
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Journal
Physical Review Applied
Volume 6, Issue 6, Pages -
Publisher
American Physical Society (APS)
Online
2016-12-21
DOI
10.1103/physrevapplied.6.064008
References
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Related references
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- (2015) S. A. Wolf et al. PHYSICAL REVIEW B
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- (2015) M. L. Goldman et al. PHYSICAL REVIEW LETTERS
- Single spin optically detected magnetic resonance with 60–90 GHz (E-band) microwave resonators
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- (2015) Toeno van der Sar et al. Nature Communications
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- (2013) Y. Dumeige et al. PHYSICAL REVIEW B
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- Magnetic-field-dependent photodynamics of single NV defects in diamond: an application to qualitative all-optical magnetic imaging
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