Examine This Report on CLBO Crystal
Examine This Report on CLBO Crystal
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Having said that, so as to approach the crystal is extremely advanced production methods are demanded. Because the dawn of the crystal, focusing on this challenge, we are actually the only real firm in the world which can be processed in this crystal.
When compared to BBO it attributes more substantial spectral and temperature acceptance, improved angle tolerance, as well as a lesser walk-off angle. from 3289 $ delivery
We summarized the current improvement position of the significant-electricity DUV laser each with the wavelength of FHG from the one-μm laser and at 193 nm. The current development on the solid-condition/fiber laser, as well as the nonlinear optical crystals, prompts not only the normal power but in addition the beam good quality (coherence) of the DUV lasers to an unprecedented stage.
As an illustration, The present concave OC could be replaced by a aircraft mirror which could mitigate the power density over the surface of M1 along with the diamond. Additionally, using large injury threshold coatings for M1 and diamond would also improve the output electrical power with no damages. Then, the NIR laser for the 2nd Stokes wavelength could be large sufficient, together with its fantastic beam top quality, to crank out the final DUV laser at 193 nm by using a high common ability.
Alternatively, the beam quality of this bigger electrical power DUV laser would come to be worse as a consequence of far more serious thermal and nonlinear results. As a result, the frequency conversion processes needs to be thoroughly designed to mitigate the aforementioned effects. Hence, a significant-ability DUV laser at the FHG of 1 μm with a superb beam excellent can be attained and may be effective for getting the shorter wavelength DUV lasers for instance 193 nm by SFG.
Mainly because of the thermal lens effect in the good-condition lasers, In case the heating management is inadequate, It's not effortless to obtain the good-state laser which has a substantial electricity as well as a high beam excellent simultaneously. Not long ago, with the event of the thin disk laser and solitary-crystal fiber (SCF) laser, a large-electric power laser at the fundamental wavelength (1 μm) had been recognized with an excellent beam quality even with a TEM00 manner beam [4,24], which would be excellent candidates for the basic with the DUV laser technology. Another candidate for the fundamental may be the large-electricity fiber laser which could possibly be reached by coherent beam blend with M2 benefit less than one.
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Moreover, combining the reliable-point out laser with other nonlinear approach such as stimulated Raman scattering, NIR lasers may be achieved at new wavelengths with substantial ability and large beam excellent, which was analyzed by the proof-of-principle experiment. This Raman laser scheme gives a different path to the superior-power DUV laser, Specifically on the wavelength of 193 nm.
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Its UV absorption edge reaches a hundred and eighty nm. The productive nonlinear optical coefficient of CLBO for frequency doubling at 1064nm is about two times as big as that of KDP. CLBO crystals can be developed from your stoichiometric soften with lessen viscosity.
The development on the 193-nm laser was demonstrated by stages of SFG. To be able to scale the DUV laser ability properly, a new principle in the 193-nm DUV laser technology is introduced dependant on the diamond Raman laser.