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Semiconductor laser side pump module

A laser module and semiconductor technology, applied in the field of lasers, can solve problems such as water leakage, low conversion efficiency, and complex assembly, and achieve the effects of avoiding assembly errors, reducing processing difficulty, and uniform energy distribution

Active Publication Date: 2010-09-15
FOCUSLIGHT TECH
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AI Technical Summary

Problems solved by technology

[0004] 1) high cost
The traditional side-pump technology requires multiple low-power semiconductor laser bars to be arranged linearly to meet the pump power requirements, which leads to high cost of the pump source
[0005] 2) Complicated assembly
And the long-time work of the system will lead to a decrease in the consistency of the arrangement of the semiconductor laser bars, resulting in a decrease in pumping efficiency
[0006] 3) Poor reliability
The traditional side-pump technology uses multiple low-power semiconductor laser bars connected in series, so the waterway system of the required water-cooling module is complicated, and water leakage is prone to occur, causing damage to the entire pump module
In addition, in order to meet the requirements of beam uniformity, in the traditional pumping technology, there is only a gap of about 0.5mm between the semiconductor laser bars, which is not easy to install and brings difficulties to the circuit connection, thus greatly reducing the reliability of the system
[0007] 4) Uneven side pump energy
The traditional side-pump technology mainly compresses the light beam in the fast axis direction of the semiconductor laser pump source, and does not process the slow axis direction, so the energy distribution of the side pump beam is uneven, resulting in uneven heating of the crystal rod and thermal effects, which will cause the entire module The conversion efficiency drops

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  • Semiconductor laser side pump module
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Embodiment Construction

[0033] Describe the present invention in detail below in conjunction with accompanying drawing and specific implementation example:

[0034] see image 3 and Figure 4 , the semiconductor laser side pump module of the present invention mainly includes a semiconductor laser module 1, a fast axis collimator mirror 2, a beam expander mirror 3, a homogenizing mirror 4, a crystal rod 5, and a base plate 6 (cooperating with the main components of the present invention in addition) Some ancillary parts such as water cooling part and shell part are identical with prior art, therefore do not show in the figure). The side pump module unit is composed of semiconductor laser module 1, fast axis collimator mirror 2, beam expander mirror 3 and homogenizer mirror 4, wherein semiconductor laser module 1, fast axis collimator mirror 2, beam expander mirror 3 and homogenizer mirror 4 are all fixed on the base plate 6, the fast axis collimating mirror 2 is set at the front end of the semicondu...

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Abstract

The invention relates to a semiconductor laser side pump module comprising one or more side pump module units and a crystal bar, wherein each side pump module unit comprises a baseplate, a semiconductor laser module fixed on the baseplate, a fast axis collimator arranged at the front end of the semiconductor laser module and a beam expander arranged behind the fast axis collimator, and the crystal bar is arranged behind the beam expander; the semiconductor laser module comprises a bar; and the side pump module unit also comprises a homogenizing mirror arranged between the beam expander and the crystal bar. The side pump module can ensure that the beam homogeneity and the energy density of a pumping semiconductor laser satisfy the operating requirement by utilizing fewer high-power semiconductor laser arrays as the pumping source after beam expansion and homogenization.

Description

technical field [0001] The invention belongs to the field of lasers, and relates to a semiconductor laser, in particular to a semiconductor laser side pump module. Background technique [0002] As all-solid-state lasers show more and more broad application prospects in industrial, medical, military and other fields, higher requirements are put forward for the semiconductor laser side pump module as the core component. At present, side-pump modules at home and abroad usually use semiconductor laser horizontal arrays to form regular triangles, regular pentagons, regular heptagons, etc. to distribute the crystal rods in the pump center. In order to meet the requirements of crystal rods for pumping size, power density and other parameters, semiconductor laser arrays often adopt traditional horizontal array forms such as 1×3, 1×4, 1×N (Burbgan R, SPIE, 1994, 2206: 256; Lu Baida, Shao Huaizong, Infrared and Laser Engineering, 1997, 26(6): 29). Since multiple bars are arranged in...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01S3/0941H01S3/16H01S5/024H01S5/022G02B27/09
Inventor 刘兴胜杨凯康利军
Owner FOCUSLIGHT TECH
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