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Tunable mode locking fiber laser based on fiber grating and graphene

A graphene mode-locker and fiber laser technology, applied in lasers, laser parts, phonon exciters, etc., can solve the problems of instability of active mode-locked fiber lasers, large number of devices, and difficulty in realization, etc. Compact, advantageous and low-cost effect

Inactive Publication Date: 2013-10-02
NORTHWEST INST OF NUCLEAR TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] At present, in order to realize the tunable mode-locked fiber laser, the active mode-locked method is adopted. In 1999, the article "10GHz Tunable Actively Mode-locked Fiber Laser" in "Acta Photonica Sinica" reported the solution to the instability of the actively mode-locked fiber laser. Solution, since active mode-locking technology requires LiNbO 3 The modulation frequency of the modulator matches the laser longitudinal mode interval quite accurately, but it is difficult to achieve in practical applications. For this purpose, the clock extraction circuit, phase controller and microwave amplifier are used to extract the electrical signal with appropriate frequency from the laser output, and then convert it to It is added to the modulator for modulation. From this, it can be seen that the number of devices used in active mode locking is large and complicated, and the whole system is very complicated.

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  • Tunable mode locking fiber laser based on fiber grating and graphene
  • Tunable mode locking fiber laser based on fiber grating and graphene
  • Tunable mode locking fiber laser based on fiber grating and graphene

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Embodiment Construction

[0037] Such as figure 1 As shown, the tunable graphene mode-locked fiber laser based on the fiber Bragg grating of the present invention consists of a pump source 1, a wavelength division multiplexer 2, a doped gain fiber 3, a single-mode fiber 4, a graphene mode-locker 5, a polarization It is composed of a controller 6, a low reflectivity fiber Bragg grating 7, a high reflectivity fiber Bragg grating 9 and piezoelectric ceramics 8.

[0038] The pump source optical end 22 of the wavelength division multiplexer 2 is connected with the pigtail fiber of the pump source 1, the signal optical end 23 of the wavelength division multiplexer 2 is connected with the high reflectivity fiber Bragg grating 9, and the wavelength division multiplexer The common end 21 of 2 is connected with the doped gain fiber 3, the other end of the doped gain fiber 3 is connected with the graphene mode locker 5, and the other end of the graphene mode locker 5 is connected with one end of the polarization ...

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Abstract

The invention discloses a tunable mode locking fiber laser based on a fiber grating and a grapheme. Tunable output of a linearity chamber fiber laser is realized based on a principle that a central wavelength of the fiber Bragg grating drifts along with strain linearity, and mode locking output of a linearity chamber fiber laser is realized based on a saturation absorption function of the grapheme with wide saturation absorption wave bands. The tunable mode locking fiber laser has advantages of full fiber structure, compact structure, stable performance, tunable broadband, wide application in the fields of fiber communication, fiber sensing, and the like and extensive applicability.

Description

technical field [0001] The invention relates to a tunable mode-locked fiber laser, and in particular provides a tunable mode-locked fiber laser based on fiber grating and graphene. Background technique [0002] Due to the ability to generate high-frequency ultrashort pulses, mode-locked fiber lasers have broad prospects in many fields such as optical communications, optical fiber sensing, detection and diagnosis, biomedicine, precision microprocessing, and military affairs. The mode-locking technology can be mainly divided into active mode-locking, passive mode-locking and hybrid mode-locking technology. [0003] Passive mode locking can realize ultrashort pulse output without using any active devices such as modulators in the laser cavity. The basic principle is to use the characteristics related to the response intensity of nonlinear devices to input optical pulses to realize the phase-locked to generate ultrashort light pulses. Saturable absorber mode locking is the mos...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01S3/067H01S3/10H01S3/098
Inventor 武俊杰王群书杨鹏翎吴勇陶蒙蒙陈绍武冯国斌
Owner NORTHWEST INST OF NUCLEAR TECH
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