Potentialities of an Electro-Optic Crystal Fed by Nuclear Magnetic Resonant Resonant Coil for Remote and Low-Invasive Magnetic Field Characterization

Ayde R.; Gaborit G.; Jarrige P.; Duvillaret L.; Sablong R.; Perrier A.-L.; Beuf O.

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Potentialities of an Electro-Optic Crystal Fed by Nuclear Magnetic Resonant Resonant Coil for Remote and Low-Invasive Magnetic Field Characterization

机译：核磁共振线圈馈电的光电晶体对远程和低侵入性磁场表征的潜力

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In this paper, we demonstrate the use of a ${rm LiTaO}_{3}$ crystal associated with a typical nuclear magnetic resonant loop coil to perform an optically remote radio frequency magnetic-field characterization. The whole transduction scheme is theoretically and experimentally studied. The measurement dynamics reaches 60 dB. The minimum detectable magnetic field is lower than 1 nT, which corresponds to an induced inner crystal electric field as low as 30 mV/m. To evaluate the spatial potentialities of the sensor, a 1-D mapping of the field along an asymmetric butterfly-shaped loop coil is performed. The result is in good agreement with finite-difference time-domain simulations and demonstrates the vectorial behavior of the sensor device.

机译：在本文中，我们演示了与典型核相关的 $ {rm LiTaO} _ {3} $ 晶体的使用磁谐振环路线圈以执行光学远程射频磁场表征。整个转导方案在理论上和实验上都有研究。测量动态达到60 dB。最小可检测磁场低于1 nT，这对应于感应内部晶体电场低至30 mV / m。为了评估传感器的空间电势，沿非对称蝴蝶形环形线圈执行磁场的一维映射。结果与有限差分时域仿真非常吻合，并证明了传感器设备的矢量特性。

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来源
《Sensors Journal, IEEE》 |2013年第4期|p.1274-1280|共7页
作者
Ayde R.; Gaborit G.; Jarrige P.; Duvillaret L.; Sablong R.; Perrier A.-L.; Beuf O.;
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作者单位

CREATIS, CNRS UMR 5220, Université de Lyon, Villeurbanne, France;

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正文语种 eng
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Biomedical optical imaging; Coils; Crystals; Magnetic resonance imaging; Noise; Optical imaging; Optical sensors; Electro-optics; magnetic field sensor; magnetic resonance imaging; nuclear magnetic resonance;

机译：生物医学光学成像;线圈;晶体;磁共振成像;噪声;光学成像;光学传感器电光磁场传感器磁共振成像核磁共振;

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7. Potentialities of an Electro-Optic Crystal Fed by Nuclear Magnetic Resonant Resonant Coil for Remote and Low-Invasive Magnetic Field Characterization [O] . Aydé, R., Gaborit, G., Jarrige, P., 2013

机译：核磁共振谐振线圈馈电的光电晶体对远程和低侵入性磁场表征的潜力

Potentialities of an Electro-Optic Crystal Fed by Nuclear Magnetic Resonant Resonant Coil for Remote and Low-Invasive Magnetic Field Characterization

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