Journal
PHYSICAL REVIEW X
Volume 5, Issue 4, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevX.5.041001
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Funding
- Deutsche Forschungsgemeinschaft (DFG) [SFB/TRR 21, FOR 1493]
- Japan Science and Technology Agency (JST) [FOR 1482]
- Max-Planck Society
- European Union (DIADEMS, SIQS, ERC SQUTEC)
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Nitrogen-vacancy (NV) defect centers in diamond are promising solid-state magnetometers. Single centers allow for high-spatial-resolution field imaging but are limited in their magnetic field sensitivity. Using defect-center ensembles, sensitivity can be scaled with root N when N is the number of defects. In the present work, we use an ensemble of N similar to 10(11) defect centers within an effective sensor volume of 8.5 x 10(-4) mm(3) for sensing at room temperature. By carefully eliminating noise sources and using high-quality diamonds with large NV concentrations, we demonstrate, for such sensors, a sensitivity scaling as 1/root t, where t is the total measurement time. The associated photon-shot-noise-limited magnetic-field sensitivity for ac signals of f = 20 kHz is 0.9 pT/root Hz. For a total measurement time of 100 s, we reach a standard deviation of about 100 fT. Further improvements using decoupling sequences and material optimization could lead to fT/root Hz sensitivity.
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