Fiber-optic vectorial magnetic-field gradiometry by a spatiotemporal differential optical detection of magnetic resonance in nitrogen-vacancy centers in diamond

Blakley S. M.; Fedotov I. V.; Amitonova L. V.; Serebryannikov E. E.; Perez H.; Kilin S. Ya.; Zheltikov A. M.

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Fiber-optic vectorial magnetic-field gradiometry by a spatiotemporal differential optical detection of magnetic resonance in nitrogen-vacancy centers in diamond

机译：通过时空差分光学检测钻石中氮空位中心的磁共振的光纤矢量磁场梯度法

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Highly sensitive room-temperature vectorial magnetic-field gradiometry is demonstrated using optically detected magnetic resonance ( ODMR) in fiber-coupled nitrogen-vacancy (NV) centers in diamond. With a bulk NV-diamond magneto-meter coupled to a pair of optical fibers integrated with a microwave transmission line, the differential ODMR measurements are implemented in both space and time, with magnetic-field gradient measurements supplemented with differential ODMR signal detection in the time domain, allowing efficient noise cancellation and providing a sensitivity of magnetogradiometry at the level of 10(-7) nT/(nmHz(1/2)). (C) 2016 Optical Society of America

机译：使用光学检测的磁共振（ODMR）在钻石中的纤维耦合氮空位（NV）中心展示了高度敏感的室温矢量磁场梯度法。通过将大容量NV金刚石磁力计耦合到与微波传输线集成在一起的一对光纤，可以在空间和时间上实现差分ODMR测量，同时还可以在磁场梯度测量的同时补充差分ODMR信号检测范围，允许有效的噪声消除，并提供10（-7）nT /（nmHz（1/2））的磁辐射法灵敏度。（C）2016美国眼镜学会

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《Optics Letters》 |2016年第9期|共4页
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Blakley S. M.; Fedotov I. V.; Amitonova L. V.; Serebryannikov E. E.; Perez H.; Kilin S. Ya.; Zheltikov A. M.;
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1. Fiber-optic vectorial magnetic-field gradiometry by a spatiotemporal differential optical detection of magnetic resonance in nitrogen-vacancy centers in diamond [J] . Blakley S. M., Fedotov I. V., Amitonova L. V., Optics Letters . 2016,第9期

机译：通过时空差分光学检测钻石中氮空位中心的磁共振的光纤矢量磁场梯度法
2. Optically detected magnetic resonance in negatively charged nitrogen-vacancy centers in diamond under resonant optical excitation at cryogenic temperatures [J] . Akhmedzhanov Rinat, Gushchin Lev, Nizov Nikolay, Physical Review, A . 2016,第6aPta1期

机译：低温下共振光激发下金刚石中带负电荷的氮空位中心的光学检测磁共振
3. Optically detected magnetic resonance in negatively charged nitrogen-vacancy centers in diamond under resonant optical excitation at cryogenic temperatures [J] . Akhmedzhanov Rinat, Gushchin Lev, Nizov Nikolay, Physical Review, A . 2016,第6aPta1期

机译：在低温温度下，在谐振光学激发下，在金刚石中的带负电荷的氮空位中心中的光学检测磁共振
4. Wide-field AC magnetic field imaging using continuous-wave optically detected magnetic resonance of nitrogen-vacancy centers in diamond [C] . Karl J.Hallbaeck, Tatsuma Yamaguchi, Yuichiro Matsuzaki, Conference on Optical and Quantum Sensing and Precision Metrology . 2021

机译：使用连续波的宽场交流磁场成像在钻石中使用连续波光学检测的氮气空位中心的磁共振
5. Development of an electron paramagnetic resonance system for a single nitrogen-vacancy center in diamond [D] . Stepanov, Viktor 2014

机译：用于金刚石中单个氮空位中心的电子顺磁共振系统的开发
6. Nitrogen-vacancy centers in diamond for nanoscale magnetic resonance imaging applications [O] . Alberto Boretti, Lorenzo Rosa, Jonathan Blackledge, 2019

机译：金刚石中的氮空位中心用于纳米级磁共振成像应用
7. Little bits of diamond: Optically detected magnetic resonance of nitrogen-vacancy centers [O] . Zhang, Haimei, Belvin, Carina, Li, Wanyi, 2017

机译：少量钻石：光学检测到的磁共振氮空位中心

Fiber-optic vectorial magnetic-field gradiometry by a spatiotemporal differential optical detection of magnetic resonance in nitrogen-vacancy centers in diamond

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