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Rubidium atomic magnetometer and magnetic field measuring method thereof

A magnetometer and rubidium atom technology, applied in the field of rubidium atom magnetometer and its magnetic field measurement, can solve the problem of difficulty in obtaining a magnetometer and the like, and achieve the effect of widening the measurement range

Active Publication Date: 2017-08-04
LANZHOU INST OF PHYSICS CHINESE ACADEMY OF SPACE TECH
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Problems solved by technology

American Geometrics Company recently launched the G-824A aviation cesium magnetometer with a measuring range of 20000nT~100000nT and a sensitivity of less than 0.2pT / Hz 1 / 2 RMS, the magnetic field sampling rate can reach 1000Hz. However, China needs to obtain an export license from the United States to import this kind of magnetometer. It is difficult to obtain this kind of magnetometer in the military field in China.

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  • Rubidium atomic magnetometer and magnetic field measuring method thereof
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  • Rubidium atomic magnetometer and magnetic field measuring method thereof

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Embodiment Construction

[0048] Embodiments of the present invention will be described below with reference to the drawings.

[0049] figure 1 It is the rubidium atomic magnetometer with large dynamic measurement range, high magnetic field sampling rate and high sensitivity of the present invention, which includes the physical part of the rubidium atomic magnetometer, a DSP timing control module 15, a data acquisition card 14 and a computing unit 13.

[0050] The physical part of rubidium atomic magnetometer specifically includes pumping laser and its frequency stabilization system 1, acousto-optic modulator (AOM) 2, λ / 4 glass slide 3, detection laser 4, polarizer 5, radio frequency magnetic field coil 6, rubidium bubble heating Module 7 , rubidium bulb 8 , polarization beam splitter (PBS) 9 , two photodetectors 10 and 11 , differential amplifier circuit 12 and radio frequency signal source 16 . Wherein, the rubidium bubble 8 is arranged inside the rubidium bubble heating module 7 . The radio freque...

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Abstract

The invention discloses a rubidium atomic magnetometer and a magnetic field measuring method. Based on the principle of nonlinear magneto-optic rotation, and through combination of timing control and tracking type frequency locking control, the atomic magnetometer achieves a large dynamic measurement range, high magnetic field sampling rate and high sensitivity. A DSP timing control module controls on-off of an acousto-optic modulator and a radio-frequency signal source in the physical part of the rubidium atomic magnetometer according to timing combination to adjust the magnetic field sampling rate N. The DSP timing control module further controls acquisition triggering of a data acquisition card. A calculation unit gets the Larmor precession frequency (f) through fast Fourier transform with use of a received rubidium atom Larmor precession free relaxation signal, and further calculates the value of an external magnetic field. The calculation unit selects a high magnetic field sampling rate module or a low magnetic field sampling rate module before measurement according to the pre-judged dynamic range of a to-be-measured magnetic field, and sets whether a tracking type frequency locking work mode is used when the low magnetic field sampling rate module is selected. In the working process, data is acquired and processed, and the value of the magnetic field is output.

Description

technical field [0001] The invention belongs to the field of magnetic field measurement, and in particular relates to a rubidium atom magnetometer with a large dynamic measurement range, high magnetic field sampling rate and sensitivity and a magnetic field measurement method thereof. Background technique [0002] In the field of magnetic field measurement, the dynamic measurement range, magnetic field sampling rate and sensitivity of the measuring instrument are three important indicators. At present, Mz and Mx modes of optical pumping magnetometer (optical pumping magnetometer, OPM), coherent population trapping (coherent population trapping, CPT) magnetometer, nonlinear magneto-optical rotation (nonlinearmagneto-optical rotation, NMOR) magnetometer have appeared in the world. Atomic magnetometers, spin-exchange relaxation free (SERF) magnetometers and other atomic magnetometers, "Liu Guobin, Sun Xianping, Gu Sihong, Feng Jiwen, Zhou Xin. Research progress of high-sensitiv...

Claims

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Application Information

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IPC IPC(8): G01R33/032
Inventor 缪培贤杨世宇王剑祥廉吉庆涂建辉杨炜崔敬忠
Owner LANZHOU INST OF PHYSICS CHINESE ACADEMY OF SPACE TECH
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