The Ultimate Guide To CLBO Crystal

The Ultimate Guide To CLBO Crystal

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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。

Conversely, the beam quality of this higher electricity DUV laser would grow to be even worse because of additional really serious thermal and nonlinear outcomes. For this reason, the frequency conversion procedures must be meticulously designed to mitigate the aforementioned effects. Therefore, a substantial-electric power DUV laser in the FHG of 1 μm with a good beam quality can be attained and may be helpful for acquiring the shorter wavelength DUV lasers for example 193 nm by SFG.

LBO can be a superb nonlinear crystal which is often placed on the SHG with the NIR to the green. The DUV laser is frequently realized by two stages of SFG inside the LBO crystals since there isn't any phase-matching angle for LBO to transform the green laser at 515 nm or 532 nm on the DUV immediately by SHG [16]. Just lately, the NSBBF crystal has also proven its likely to acquire a superior conversion performance from 532 nm to 266 nm. The wander-off angle and deff in the NSBBF are Practically much like those of CLBO [seventeen].

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Its UV absorption edge reaches one hundred eighty nm. The powerful nonlinear optical coefficient of CLBO for frequency doubling at 1064nm is about two times as huge as that of KDP. CLBO crystals might be grown from the stoichiometric soften with lower viscosity.

The development in the 193-nm laser was demonstrated by levels of SFG. So as to scale the DUV laser electric power correctly, a different notion from the 193-nm DUV laser technology is offered depending on the diamond Raman laser.