Low-power (10.6-μm) laser-beam amplification by thermal-grating-mediated degenerate four-wave mixing in a nematic liquid-crystal film

I. C. Khoo; P. Y. Yan; G. M. Finn; T. H. Liu; R. R. Michael

doi:10.1364/JOSAB.5.000202

Journal of the Optical Society of America B
Vol. 5,
Issue 2,
pp. 202-206
(1988)
•https://doi.org/10.1364/JOSAB.5.000202

Low-power (10.6-μm) laser-beam amplification by thermal-grating-mediated degenerate four-wave mixing in a nematic liquid-crystal film

I. C. Khoo, P. Y. Yan, G. M. Finn, T. H. Liu, and R. R. Michael

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I. C. Khoo, P. Y. Yan, G. M. Finn, T. H. Liu, and R. R. Michael, "Low-power (10.6-μm) laser-beam amplification by thermal-grating-mediated degenerate four-wave mixing in a nematic liquid-crystal film," J. Opt. Soc. Am. B 5, 202-206 (1988)

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Abstract

We present a detailed theoretical analysis of degenerate four-wave mixing by a laser-induced thermal grating in a nematic liquid-crystal film. In particular, we show that the coupling of the (strong) pump beam to the first-order diffracted beam can give rise to substantial amplification of a (weak) probe beam. Experimental verification of this effect with a CO₂ laser beam is also made. A probe-beam gain of greater than 20 can easily be observed in a 120-μm film with a pump intensity of the order of a few watts per square centimeter.

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Journal of the Optical Society of America B