Device and method for balanced beat detection of POP rubidium atomic clock

A rubidium atomic clock and balancing technology, which is applied in the field of devices for balanced beat detection of POP rubidium atomic clocks, can solve problems affecting the stability of atomic clocks, and achieve the effect of overcoming low contrast

Active Publication Date: 2018-09-14
NAT TIME SERVICE CENT CHINESE ACAD OF SCI
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Problems solved by technology

[0004] The technical problem to be solved by the present invention is to overcome the problem that the weak signal of the polarization detection method is easily affected by the AM and FM-AM noise generated by the laser, and then affect the stability of the atomic clock, and provide a reasonably designed, effe

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  • Device and method for balanced beat detection of POP rubidium atomic clock
  • Device and method for balanced beat detection of POP rubidium atomic clock
  • Device and method for balanced beat detection of POP rubidium atomic clock

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Embodiment 1

[0027] exist figure 1 Among them, the present invention is a device for detecting POP rubidium atomic clocks with balanced beats. A half glass slide 2 and a polarization beam splitter 3 are arranged in the laser emission direction of the DBR laser 1, and the laser beam is divided into two parts after passing through the polarization beam splitter 3. The linearly polarized light whose beam polarization direction is vertical, the first beam of linearly polarized light is reflected to the non-polarized beam splitter 13, and the second beam of linearly polarized light enters the acousto-optic modulator 4, the quarter glass 5, and the zero degree sequentially along the original direction. The total reflection mirror 6 returns to the polarization beam splitter 3 in the same way after being reflected by the zero-degree total reflection mirror 6, and the first 45-degree total reflection mirror 7 is arranged in the light exit direction of the second beam of linearly polarized light afte...

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Abstract

The invention discloses a device for balanced beat detection of a POP rubidium atomic clock. A half slide and a polarization beam splitter are arranged on a DBR laser along a laser emergent direction.A first beam of linearly polarized light is reflected to a non-polarization beam splitter. A second beam of linearly polarized light enters an acousto-optic modulator, a quarter-slide, a zero-degreetotal reflection mirror in the original direction, returns to the polarization beam splitter in the original direction, and then enters a first 45-degree total reflection mirror. The light exit direction of the first 45-degree total reflection mirror is sequentially provided with a first high extinction ratio polarizer, a physical system, a second high extinction ratio polarizer, a second 45 degree total reflection mirror, a third 45 degree total reflection mirror, and the non-polarization beam splitter. The first polarized light and the second polarized light are correspondingly input into abalanced beat detector after being split and combined without the polarization beam splitter, and a signal of the detector is input to a data acquisition card. A detection method greatly improves signal-to-noise ratio of the signal of the POP atomic clock, enhances signal resistance to current noise, and can be applied to the field of atomic clock detection.

Description

technical field [0001] The invention belongs to the technical field of atomic clocks, and in particular relates to a device and method for detecting POP rubidium atomic clocks with balanced beats. Background technique [0002] The development of atomic clocks with small size, low power consumption and high performance has important positive significance for basic scientific research and industrial production, especially in high-resolution satellite navigation. Compared with crystal oscillators, atomic clocks have better long-term stability. good advantage. [0003] The POP rubidium atomic clock has three advantages of small size, low power consumption and high performance, and has been extensively studied in recent years. The basic principle is to use laser and microwave to interact with the atomic three-level system to generate the ground state energy level layout number difference and the coherence of the ground state. When the microwave frequency is exactly equal to the ...

Claims

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Application Information

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IPC IPC(8): G04F5/14
CPCG04F5/14
Inventor 王柯穆杜志静薛文祥郝强张首刚
Owner NAT TIME SERVICE CENT CHINESE ACAD OF SCI
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