Frequency doubling of CO<sub>2</sub> laser radiation at 10.6 μm in the highly nonlinear chalcopyrite LiGaTe<sub>2</sub>

Jean-Jacques Zondy; Franck Bielsa; Albane Douillet; Laurent Hilico; Ouali Acef; Valentin Petrov; Alexander Yelisseyev; Ludmila Isaenko; Pavel Krinitsin

doi:10.1364/OL.32.001722

Optics Letters
Vol. 32,
Issue 12,
pp. 1722-1724
(2007)
•https://doi.org/10.1364/OL.32.001722

Frequency doubling of $C O_{2}$ laser radiation at $10.6 μ m$ in the highly nonlinear chalcopyrite $Li Ga {Te}_{2}$

Jean-Jacques Zondy, Franck Bielsa, Albane Douillet, Laurent Hilico, Ouali Acef, Valentin Petrov, Alexander Yelisseyev, Ludmila Isaenko, and Pavel Krinitsin

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Jean-Jacques Zondy, Franck Bielsa, Albane Douillet, Laurent Hilico, Ouali Acef, Valentin Petrov, Alexander Yelisseyev, Ludmila Isaenko, and Pavel Krinitsin, "Frequency doubling of CO₂ laser radiation at 10.6 μm in the highly nonlinear chalcopyrite LiGaTe₂," Opt. Lett. 32, 1722-1724 (2007)

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Abstract

Type-I phase matching for second-harmonic generation at $10.6 μ m$ in $Li Ga {Te}_{2}$ is demonstrated by using a tunable single-frequency continuous-wave $C O_{2}$ laser, and the nonlinear coefficient of $Li Ga {Te}_{2}$ is determined from comparison with $Ag Ga {Se}_{2}$ . The effective nonlinearity of $Li Ga {Te}_{2}$ for this process amounts to $34.5 pm ∕ V$ .

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