The Definitive Guide to CLBO Crystal

All-strong-point out ultraviolet lasers have already been commonly Employed in the fields of mechanical flaw detection, lithography, micromachining and medication for the benefits of smaller quantity, extended daily life, substantial efficiency, great beam high quality, wide tuning and narrow spectral line, etc. Employing substantial power in close proximity to-infrared coherent gentle resource as the basic frequency source determined by nonlinear tuning know-how, creating ultraviolet coherent radiation by multistage frequency conversion is considered a significant method to acquire the ultraviolet coherent mild resource.

In comparison to BBO it capabilities much larger spectral and temperature acceptance, much better angle tolerance, and a smaller stroll-off angle. from 3289 $ delivery

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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。

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Both of those the 1040 nm and 1078 nm laser originate from a single twin-wavelength Yb-doped fiber laser. Just about every laser is amplified by stages of fiber amplifier and Yb-doped supplies amplifier, respectively.

On another side, the power scaling of your NIR laser is yet another factor to boost the typical power with the 193-nm DUV laser. Due to insufficient the high-electric power amplification Resolution of the NIR laser (one example is at 1553 nm), nonlinear frequency processes like optical parameter oscillation (OPO) may very well be applied to make a wavelength converter by shifting the wavelength from one μm to the specified wavelength in addition to getting relative larger energy [21]. Not long ago, a diamond Raman laser showed its potential in acquiring a large ability along with a large conversion effectiveness for the 1st Stokes of your one-μm laser [22,23], which means the likelihood being utilized during the 193-nm DUV laser technology because of its superior Raman get and large frequency change.

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The pulse length of the second Stokes gentle was shortened to 5 ns as demonstrated in Figure 7a, one-shot picture within the oscilloscope, that's a common phenomenon in Raman laser [44] though the heartbeat period from the pump laser was 10 ns.

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The development on the 193-nm laser was shown by stages of SFG. So as to scale the DUV laser energy proficiently, a fresh thought with the 193-nm DUV laser generation is presented based upon the diamond Raman laser.