论文信息 - Bound electronic Kerr effect and self-focusing induced damage in second-harmonic-generation crystals

Bound electronic Kerr effect and self-focusing induced damage in second-harmonic-generation crystals

We present an investigation of third-order electronic nonlinearities in second-harmonic-generation (SHG) crystals using a picosecond 532 nm wavelength beam. The crystals studied include KTP, KTA, BBO, LBO and LiNbO3. Using the Z-scan technique the nonlinear refractive indexes and two-photon absorption coefficients in the z-cut crystals are measured, as well as in KTP, BBO and LBO along the phase-matching angles for the SHG of 1064 nm radiation. The microscopic origin of the measured refractive nonlinearity can be understood in terms of bound electronic effects, and the theoretical predictions are in agreement with our measurements. Finally, we perform an experimental study on the self-focusing induced damage in these crystals by extending the Z-scan method. The measured damage threshold is inversely proportional to the nonlinear refractive index and the thickness of a crystal.

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