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Microwave saturation spectroscopy of nitrogen-vacancy ensembles in diamond

Negatively-charged nitrogen-vacancy (NV$^-$) centers in diamond have generated much recent interest for their use in sensing. The sensitivity improves when the NV ground-state microwave transitions are narrow, but these transitions suffer from inhomogeneous broadening, especially in high-density NV ensembles. To better understand and remove the sources of broadening, we demonstrate room-temperature spectral "hole burning" of the NV ground-state transitions. We find that hole burning removes the broadening caused by magnetic fields from $^{13}$C nuclei and demonstrate that it can be used for magnetic-field-insensitive thermometry.

preprint2014arXivOpen access
P. KehayiasM. MrózekV. M. AcostaA. JarmolaD. S. RudnickiR. FolmanW. GawlikD. Budker
physics.atom-phcond-mat.mes-hallphysics.optics
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Open access8 authors3 topics
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P. KehayiasM. MrózekV. M. AcostaA. JarmolaD. S. RudnickiR. FolmanW. GawlikD. Budker

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