19 February 2003 Influence of laser absorption by nonlinear optical crystal on SHG efficiency
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Proceedings Volume 4830, Third International Symposium on Laser Precision Microfabrication; (2003); doi: 10.1117/12.486595
Event: LAMP 2002: International Congress on Laser Advanced Materials Processing, 2002, Osaka, Japan
Abstract
Frequency-conversion techniques such as SHG, THG and FOHG with nonlinear optical crystals are indispensable for the applications of solid-state lasers to precision microfabrication. It is well known that the conversion efficiency is very sensitive to the temperature rise of the crystal, which is induced by laser absorption. In this study, temperature dependence of SHG efficiency has been investigated theoretically, supposing Nd:YAG laser of uniform intensity and KDP (KH2PO4) crystal. The coupling problem composed of complex wave amplitude equations and one-dimensional heat conduction equation was analyzed. The complex wave amplitude equations were derived considering the absorption of laser in the crystal. The main results obtained are summarized as follows: (1) Decreasing of SHG efficiency due to laser absorption for the single pulse irradiation to a crystal of 10 mm long, is less than five percent. (2) When SHG efficiency is higher, temperature-rise of the crystal is smaller. Because absorption coefficient for the fundamental wave is larger than that of the second harmonic. (3) When the temperature of crystal rises due to repeated irradiation of pulse laser, SHG efficiency fluctuates and decreases gradually. Remarkable inverse-conversion of SHG appears during laser irradiation with high power density. (4) As either pulse width or irradiation time becomes longer, analytical SHG efficiency agrees with the approximate results obtained under the simple phase-mismatching conditions.
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Etsuji Ohmura, Kazufumi Nomura, Isamu Miyamoto, "Influence of laser absorption by nonlinear optical crystal on SHG efficiency", Proc. SPIE 4830, Third International Symposium on Laser Precision Microfabrication, (19 February 2003); doi: 10.1117/12.486595; https://doi.org/10.1117/12.486595
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KEYWORDS
Crystals

Second-harmonic generation

Laser crystals

Absorption

Nonlinear crystals

Refractive index

Pulsed laser operation

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