Brillouin light time domain analysis device and method based on dual-wavelength polarization orthogonal light

An optical time domain analysis and polarization orthogonal technology, which is applied in the direction of using optical devices to transmit sensing components, measuring devices, and converting sensor output, etc., can solve problems such as large pump light consumption, system performance degradation, and signal-to-noise ratio reduction. , to avoid the decrease of signal-to-noise ratio, save the detection device, and achieve the effect of long sensing distance

Active Publication Date: 2016-06-01
NAT UNIV OF DEFENSE TECH
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Problems solved by technology

However, this method has disadvantages in application, that is, there will be serious four-wave mixing phenomenon between multi-wavelength pump light, resulting in the consumption of a large amount of pump light, thereby reducing the signal-to-noise ratio
For example, if a dual-wavelength structure is used, part of the energy of the pump light is transferred to the two sidebands generated by four-wave mixing, which causes an increase in the noise optical power and a decrease in the detection optical power, so the actual signal-to-noise ra

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  • Brillouin light time domain analysis device and method based on dual-wavelength polarization orthogonal light
  • Brillouin light time domain analysis device and method based on dual-wavelength polarization orthogonal light

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Embodiment Construction

[0031] The specific embodiments of the present invention will be further described below in conjunction with the accompanying drawings.

[0032] The present invention proposes a Brillouin optical time-domain analysis device based on dual-wavelength polarized orthogonal light, which consists of a narrow linewidth laser 01, a first polarization controller 02, a Mach-Zehnder intensity modulator 03, a first arbitrary Waveform generator 04, first DC power supply 05, fiber coupler 06 with a coupling mode of 1×2, first erbium-doped fiber amplifier 07, acousto-optic modulator 08, acousto-optic modulator driver 09, second arbitrary waveform generator device 10, second polarization controller 11, differential group delay module 12, second erbium-doped fiber amplifier 13, narrowband fiber filter 14, adjustable optical attenuator 15, three-port circulator 16, third polarization controller 17 , dual parallel Mach-Zehnder intensity modulator 18, microwave signal source 19, second DC power s...

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Abstract

The invention relates to the field of optical fiber sensing technology, in particular to a Brillouin light time domain analysis device and a method based on dual-wavelength polarization orthogonal light. Two beams of polarization orthogonal light with different wavelengths are used as pump light, so a four-wave mixing phenomenon between the two beams of the pump light is completely restrained and the signal to noise ratio of the tail end of a sensing optical fiber can be truly increased by 3dB. In addition, according to the invention, a direct detection mode is adopted on a detection end, so compared with a Brillouin light time domain analysis device and a method in which a heterodyning detection mode is adopted, quite expensive detection devices and time-consuming demodulation processes are omitted; and development of a Brillouin light time domain analysis system towards a dynamic measuring direction is facilitated.

Description

technical field [0001] The invention relates to the technical field of optical fiber sensing, in particular to a Brillouin optical time-domain analysis device and method based on dual-wavelength polarized orthogonal light. Background technique [0002] Distributed optical fiber sensing technology has been widely used for its advantages of continuous sensing of temperature, strain and other parameter changes at any point along the optical fiber, optical fiber integrating signal sensing and transmission, and convenient for long-distance sensing and large-scale networking. All aspects of the national economy and people’s daily life, including structural safety monitoring of buildings, bridges, dams, tunnels, river embankments, aircraft, ships, factory equipment, etc., leak detection in dangerous places such as oil pipelines and high-voltage lines, and border intrusion Real-time monitoring and fault point detection of communication optical cables. [0003] Brillouin optical tim...

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Application Information

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IPC IPC(8): G01D5/26
CPCG01D5/268
Inventor 陈伟孟洲张学亮宋章启熊水东胡晓阳
Owner NAT UNIV OF DEFENSE TECH
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