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引用次数: 0
摘要
核磁共振(NMR)和原子磁共振(AMR)在实现高精度磁场测量方面发挥着重要作用。磁场单元(T)是基于屏蔽质子旋磁比(γ′P)、氦-4旋磁比和相关技术实现的。在非磁性实验室中,核磁共振磁强计和电磁铁、亥姆霍兹线圈系统和AMR磁强计已经传播了磁场标准系统。通过使用Cs和Cs-4 He AMR并自动补偿外部磁场噪声,开发了低于1mT的磁场标准。该标准用于磁强计的校准,并支持在5μT至2.0 T范围内对传感器和材料进行测试,不确定度为(1至50)μT/T(k=2)。
The nuclear magnetic resonance (NMR) and atomic magnetic resonance (AMR) plays a fundamental role in achieving a high accuracy of magnetic field measurements. Magnetic field unit (T) was realized based on the shielded proton gyromagnetic ratio ( γ ' P ), helium-4 gyromagnetic ratio ( γ 4He ) and related techniques. The magnetic field standard system has been disseminated by the NMR magnetometer and electromagnet, a Helmholtz coil system, and AMR magnetometer in the nonmagnetic laboratory. A magnetic field standard below 1 mT has been developed by using Cs and Cs- 4 He AMR with automatic compensation of an external magnetic field noise. The standards serve for the calibration of magnetometers and support the test of sensors and materials in the range from 5 μT to 2.0 T with (1 to 50) μT/T uncertainty ( k =2).
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