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Self-excited atomic magnetic sensor for liquid crystal phase compensation and magnetic field measurement method

A technology of liquid crystal phase and magnetic sensor, which is applied in magnetic field measurement, magnetic field size/direction and other directions using magneto-optical equipment, and can solve problems such as unfavorable phase shifting of circuits, and achieve simple phase modulation, wide response range, and increased signal effect

Active Publication Date: 2019-01-11
PEKING UNIV
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Problems solved by technology

[0007] In order to solve the above-mentioned deficiencies in the prior art, the present invention proposes a self-excited atomic magnetic sensor with liquid crystal phase compensation and a method for measuring a magnetic field using the self-excited atomic magnetic sensor, and designs a liquid crystal phase compensation scheme that combines light intensity modulation The advantages of magnetometer and self-excited magnetometer avoid the phase shift caused by the circuit coil and realize the phase shift of a wider range of magnetic fields, which can solve the unfavorable problems in the circuit phase shift. The magnetometer responds quickly and is suitable for various atoms. , has wider application value

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Embodiment Construction

[0033] Below in conjunction with accompanying drawing, further describe the present invention through embodiment, but do not limit the scope of the present invention in any way.

[0034] Such as figure 1 Shown is a schematic diagram of the main functional modules of the present invention, wherein a beam splitter can be used to split the beam emitted by the laser 1 into two beams of laser light, which are respectively defined as pump light and probe light.

[0035] The pump light passes through the acousto-optic modulator 4 driven by the power drive 3 to form a beam of modulated light. After passing through the beam expander 4 and the first polarizer 5, the pump light becomes linearly polarized light with a large spot, and the linearly polarized light Incident to the atomic gas cell 10 along the vertical direction of the magnetic field, it interacts with the atoms in the gas cell to generate optical pumping and then transmits out of the gas cell.

[0036] After the other probe...

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Abstract

The invention discloses a self-excited atomic magnetic sensor for liquid crystal phase compensation and a magnetic field measurement method, which are used for a magnetometer. The self-excited atomicmagnetic sensor comprises a pumping light path perpendicular to the direction of the magnetic field, a probe light path along the direction of the magnetic field, and a circuit closed loop. The pumping light path sequentially comprises an atomic air chamber, a first polarizer, an acousto-optic modulator, and a laser. The probe light path sequentially comprises a photoelectric detector, an atomic air chamber in the pumping light path, a second wave plate1 / 4, a liquid crystal, a first wave plate1 / 4, a second polarizer, and a laser. The closed loop portion of the circuit comprises a photoelectricdetector, an amplifying comparator, a power driver, an acousto-optic modulator, and a counter. According to the liquid crystal phase compensation scheme, a phase shift caused by a circuit coil can beavoided, a phase shift of a larger range magnetic field can be achieved, and the problem that the circuit is unfavorable in the phase shift is solved by combining a light intensity modulation magnetometer and a self-excited magnetometer, the response speed is high, the liquid crystal phase compensation scheme is suitable for the various atomics, and the application value is high.

Description

technical field [0001] The invention relates to the technical field of optical pump magnetometers, in particular to a liquid crystal phase-compensated self-excited atomic magnetic sensor, an atomic magnetic sensor suitable for each atom under the condition of a geomagnetic field, and a method for measuring a magnetic field by using the atomic magnetic sensor. Background technique [0002] Magnetometer is a general term for magnetic field measuring instruments. High-sensitivity magnetic field measurement technology has extensive and important applications in biomedicine, geophysics, space exploration, military and national defense and other fields. At present, there is a significant difference in the research level of magnetometry at home and abroad, and the advanced level of magnetometers abroad has far surpassed our country in terms of sensitivity indicators. Therefore, it is of strategic significance to independently develop a high-sensitivity magnetometer. The optically...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R33/032
CPCG01R33/032
Inventor 郭弘彭翔毛心旻王海东
Owner PEKING UNIV
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