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An underwater quantum ranging method based on Xinghai optical quantum link transmission

A technology of link transmission and distance measurement method, which is applied in the direction of photometry, distance measurement, measurement circuit, etc., and can solve problems such as low precision, unsuitable for long-distance measurement, error between measurement distance and actual distance, etc.

Active Publication Date: 2022-04-29
CHONGQING UNIV OF POSTS & TELECOMM
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Problems solved by technology

Traditional underwater laser ranging technology is easily affected by signal stability and multipath propagation of light, and is not suitable for long-distance measurement
In addition, underwater ultrasonic distance measurement has a large error between the measured distance and the actual distance due to the change of sound velocity caused by the pressure and temperature in the turbulent environment.
Traditional underwater ranging technology has problems such as low accuracy and limited measurement range, which restricts the improvement of underwater target detection level

Method used

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  • An underwater quantum ranging method based on Xinghai optical quantum link transmission
  • An underwater quantum ranging method based on Xinghai optical quantum link transmission
  • An underwater quantum ranging method based on Xinghai optical quantum link transmission

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Embodiment Construction

[0041] The technical scheme of the present invention is described in further detail below in conjunction with accompanying drawing:

[0042] Step 1: Use the satellite and the telescopes of two sea surface stations to emit beacon light, among which the sea surface station 1 is a floating beacon, and the sea surface station 2 is a ship. Through the ATP technology, establish a star sea optical quantum link;

[0043] Step 2: Use the continuous narrow-linewidth semiconductor laser mounted on the satellite to generate pump light with a bandwidth of 160MHz, collect it through the optical fiber and then converge the beam through the microlens of the coupler;

[0044] Step 3: The pump light is incident into the PPKTP crystal, and parametric down-conversion occurs to obtain entangled photon pairs;

[0045] Step 4: Use the dichroic mirror in the optical path to separate the pump light and the down-converted light, and pass it through a polarization beam splitter with a wavelength of 810n...

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Abstract

The invention proposes an underwater quantum ranging method based on Xinghai optical quantum link transmission. Firstly, the aiming and tracking technology is used to establish the optical quantum communication link, the laser on the satellite generates the pumping light, and the pumping light is incident on the periodically poled potassium titanyl phosphate crystal, the spontaneous parametric down-conversion occurs, and the signal light with entanglement characteristics is obtained and idle light, send the signal light and idle light to the surface station 1 and the surface station 2 respectively, and use the single photon detectors of the two surface stations to receive photons; secondly, let the surface station 1 sink, and the surface station 2 float on the sea surface, Track the position of the sea surface station 1; then, use the single photon detector on the sea surface station 1 to send photons to the target, and receive them by the single photon detector after being reflected by the target; finally, use the high-speed acquisition circuit to track the single photon of the two sea surface stations. The time pulse sequence output by the photon detector is coincidence counted to obtain the flight time of the signal light, and then calculate the distance between the sea surface station 1 and the target.

Description

technical field [0001] The invention relates to the field of high-precision ranging of underwater targets, in particular to an underwater quantum ranging method based on Xinghai optical quantum link transmission. Background technique [0002] The traditional underwater ranging technology mainly uses laser and ultrasonic to measure the distance of the target. The principle is to transmit the ranging signal to the target and reflect it back to the transmitter to obtain the time difference from the transmitter to the target, and then calculate the available transmitter. distance to the target. Traditional underwater laser ranging technology is easily affected by signal stability and multipath propagation of light, and is not suitable for long-distance measurement. In addition, the underwater ultrasonic ranging is caused by the change of sound velocity caused by the pressure and temperature in the turbulent environment, which causes a large error between the measured distance a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01S19/47G01S19/39G01S19/25G01S19/37G01S1/70G01J1/44G01C21/16G01C22/00G01L5/00
CPCG01S19/47G01S19/393G01S19/258G01S19/37G01S1/70G01J1/44G01C21/165G01C22/00G01L5/00G01J2001/442
Inventor 周牧王倩王勇杨小龙聂伟谢良波
Owner CHONGQING UNIV OF POSTS & TELECOMM
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