5 Simple Statements About CLBO Crystal Explained

5 Simple Statements About CLBO Crystal Explained

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We summarized The existing advancement status on the higher-ability DUV laser both equally on the wavelength of FHG of the 1-μm laser and at 193 nm. The the latest growth of the reliable-point out/fiber laser, together with the nonlinear optical crystals, prompts not only the common ability and also the beam top quality (coherence) of the DUV lasers to an unprecedented level.

全固态紫外激光器以其体积小、寿命长、效率高、光束质量好、调谐范围宽、谱线窄等优点，广泛应用于机械探伤、光刻、微加工和医学等领域，等，利用大功率近红外相干光源作为基于非线性调谐技术的基频源，通过多级变频产生紫外相干辐射被认为是发展紫外相干光源的重要途径。紫外相干光源的关键问题是研制紫外波段的非线性光学变频晶体。非线性光学晶体是实现频率变换的条件之一，因此对非线性光学晶体的生长、尺寸、损伤电阻、转换效率和允许的参数范围提出了越来越高的要求。

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Equally the 1040 nm and 1078 nm laser originate from one twin-wavelength Yb-doped fiber laser. Each individual laser is amplified by phases of fiber amplifier and Yb-doped components amplifier, respectively.

On the opposite side, the facility scaling with the NIR laser is an additional element to increase the normal electricity on the 193-nm DUV laser. A result of the lack of the substantial-energy amplification Alternative in the NIR laser (as an example at 1553 nm), nonlinear frequency procedures including optical parameter oscillation (OPO) can be applied to produce a wavelength converter by shifting the wavelength from one μm to the desired wavelength along with getting relative better energy [21]. Just lately, a diamond Raman laser showed its capability in acquiring a substantial electricity in addition to a significant conversion effectiveness for the 1st Stokes of the one-μm laser [22,23], which suggests the likelihood being used inside the 193-nm DUV laser technology thanks to its substantial Raman achieve and large frequency change.

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The development with the 193-nm laser was shown by stages of SFG. So that you can scale the DUV laser energy proficiently, a new idea on the 193-nm DUV laser era is introduced depending on the diamond Raman laser.