Concept of a microscale vector magnetic field sensor based on nitrogen-vacancy centers in diamond

Dmitriev Alexander K.; Vershovskii Anton K.

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Concept of a microscale vector magnetic field sensor based on nitrogen-vacancy centers in diamond

机译：基于金刚石中氮空位中心的微尺度矢量磁场传感器的概念

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A three-component magnetic field sensor scheme based on optically detected magnetic resonance (ODMR) in negatively charged nitrogen-vacancy centers is implemented and investigated experimentally. The central part of the scheme is a 0.01 mm(3) diamond crystal, optically pumped and interrogated through an optical fiber; combined RF excitation of hyperfine triplets in the ODMR spectrum is used to increase the signal-to-noise ratio. Methods that allow for efficient identification of ODMR spectral lines while minimizing the number of the sensor "dead" zones are proposed and tested. The scheme's sensitivity to magnetic field vector components, estimated on the basis of the signal-to-noise-to-linewidth ratio, is found to be 1.5 nT . Hz(-1/2). The operational frequency range of the scheme is 0-100 Hz. (C) 2015 Optical Society of America

机译：基于负电荷氮空位中心的光学检测磁共振（ODMR）的三分量磁场传感器方案已实现并进行了实验研究。该方案的中心部分是一颗0.01毫米（3）的钻石晶体，通过光纤进行光泵浦和询问。结合使用ODMR频谱中超细三重态的RF激发来增加信噪比。提出并测试了允许有效识别ODMR谱线同时最小化传感器“死区”区域数量的方法。该方案对磁场矢量分量的灵敏度（根据信噪比与线宽比估算）为1.5 nT。 Hz（-1/2）。该方案的工作频率范围是0-100 Hz。（C）2015年美国眼镜学会

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《Journal of the Optical Society of America, B. Optical Physics 》 |2016年第3期| 共4页
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Dmitriev Alexander K.; Vershovskii Anton K.;
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中图分类光学 ;
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1. Concept of a microscale vector magnetic field sensor based on nitrogen-vacancy centers in diamond [J] . Dmitriev Alexander K., Vershovskii Anton K. Journal of the Optical Society of America, B. Optical Physics . 2016 ,第3期

机译：基于金刚石中氮空位中心的微尺度矢量磁场传感器的概念
2. 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
3. Combined excitation of an optically detected magnetic resonance in nitrogen-vacancy centers in diamond for precision measurement of the components of a magnetic field vector [J] . Vershovskii A. K., Dmitriev A. K. Technical physics letters: Letters to the Russian journal of applied physics . 2015 ,第11期

机译：在金刚石中的氮空位中心通过光学激发的磁共振的组合激发来精确测量磁场矢量的分量
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. A Diamond Temperature Sensor Based on the Energy Level Shift of Nitrogen-Vacancy Color Centers [O] . Mingyang Yang, Qilong Yuan, Jingyao Gao, 2019

机译：基于氮空位色心能级位移的金刚石温度传感器
7. Demonstration of vector magnetic field sensing by simultaneous control of nitrogen-vacancy centers in diamond using multi-frequency microwave pulses [O] . Ken Yahata, Yuichiro Matsuzaki, Shiro Saito, 2019

机译：用多频微波脉冲同时控制钻石空缺中心的氮空位中心的示范

Concept of a microscale vector magnetic field sensor based on nitrogen-vacancy centers in diamond

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