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The laser source uses pulsed LD pumping and electro-optic Q-switching technology to ensure high beam quality and trigger accuracy of the output laser; it can be used as a test light source, a bias light source, and a simulated target indicator.
This semiconductor end-pumped Mid-infrared laser uses a unique fundamental frequency thermally-compensated resonant cavity design and QPM OPO design, uses advanced beam coupling and temperature control technology, and is assembled and sealed in a class10000 clean room; ensuring the product in a variety of complex environments Long-term stability.
At present, the mid-infrared laser light source produced by the company has been selected by many scientific research units for its stable performance, outstanding technical indicators and high cost performance.
The Mid-infrared laser in CW mode uses semiconductor pump coupling and intra-cavity OPO technology to achieve continuous laser output in the 3-5um band. And the stability is good, the beam quality is the fundamental mode.
This high-frequency laser rangefinder adopts advanced laser light source design technology, which can realize the output of narrow pulse fundamental mode laser pulses above 10kHz, and has good output stability, small structure size, low heat, and can work continuously.
This LD pump laser uses a unique thermally-compensated cavity design and Q-switched technology to ensure laser beam quality and narrow pulse width. The typical output wavelength is 1064nm. Through frequency doubling technology or OPO, the output wavelength can be extended to 532nm, 1570nm, 3——5um.
This End-pumped solid-state laser uses a unique thermally-compensated cavity design and Q-switched technology to ensure high laser beam quality and narrow pulse width. The main optical devices in the cavity are all designed with a locking mechanism.