A high-power microchip laser device
A microchip laser and high-power technology, applied in lasers, laser components, phonon exciters, etc., can solve problems such as low coupling efficiency of signal light and pump light, strict requirements for laser stability, and difficulties in industrial application of lasers , to achieve high stability, easy isolation, and improved stability
Active Publication Date: 2017-01-25
广东华快光子科技有限公司 +1
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Problems solved by technology
[0006] 1. The coupling efficiency of signal light and pump light is low, resulting in waste of resources;
[0007] 2. The laser has strict requirements on the stability of the working environment, and the external disturbance is easy to lose the coupling, which brings great difficulties to the industrial application of the laser
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[0027] Below in conjunction with the accompanying drawings, the features of the present invention and other related features will be described in further detail by embodiments, so as to facilitate the understanding of those skilled in the same industry:
[0028] like figure 1 As shown in the figure, a high-power microchip laser device includes a first pump light source 1, an optical coupling system 2, a passive Q-switching microchip 3, a convex lens 4 for focusing output, a mirror 5, a A collimator 6 and a beam combiner 7, the beam combiner 7 is provided with a collimation input end, a pump light input end, and a beam combiner output end, and the collimation input end of the beam combiner 7 is aligned with the first collimator The output end of the beam combiner 6 is connected, the pump light input end of the beam combiner 7 is connected to a second pump light source 8, and the beam combining output end of the beam combiner 7 is sequentially connected to a small core diameter ...
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The invention discloses a high-power microchip laser device. The high-power microchip laser device is characterized by comprising a first pump light source, an optical coupling system, a passive Q switched microchip, a convex lens for focus output, a reflector, a first collimator and a beam binder all of which are connected in sequence, the beam binder is provided with a collimation input end, a pump light input end and a beam binding output end, the collimation input end of the beam binder is connected with the output end of the first collimator, the pump light input end of the beam binder is connected with a second pump light source, and the beam binding output end of the beam binder is sequentially connected with a small-core-diameter double-cladding gain optical fiber used for laser pre-amplification, a pumping leakage device, an optical fiber isolator, an optical fiber mode field adapter, a large-core-diameter multi-mode double-cladding optical fiber amplifier for primary laser amplification, and a second collimator used for performing output. The high-power microchip laser device can operate under the full optical fiber condition, the working stability of the whole high-power microchip laser device is greatly improved, and the high-power microchip laser device can meet the industrial application condition.
Description
[0001] [Technical field] [0002] The invention relates to a high-power microchip laser device. [0003] [Background technique] [0004] The growing demands of the high-precision micromachining market place higher requirements on the peak power and repetition frequency of laser pulses, and nanosecond pulsed lasers generally cannot meet the requirements of fine processing. Most of the high-power lasers operating in the picosecond region in the past were mode-locked systems and were used for high-precision micromachining by reducing the repetition rate and amplifying them. Usually, the mode-locked oscillator needs to be combined with a pulse selector and pass through a regenerative amplifier, which often leads to a bulky, complex and expensive system. Ultrashort pulse fiber lasers with low cost, high stability and high gain amplification have attracted extensive attention. These advantages are especially important for industrial material processing lasers. [0005] In 1994, MI...
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IPC IPC(8): H01S3/067H01S3/091H01S3/10
Inventor 张志刚刘关玉朱海波周亮云志强
Owner 广东华快光子科技有限公司