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Pump wavelength tuning of a near-infrared optical parametric oscillator

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Abstract

Optical parametric conversion in a potassium titanyl phosphate crystal with a tunable alexandrite laser was investigated as a function of pump wavelengths in the 700–800-nm region. Threshold energies and slope efficiencies for a doubly resonant oscillator configuration were measured for pump wavelengths of 744, 766, and 780 nm. Phase-matching conditions and a theoretical analysis using Sellmeier’s equations provide good agreement with experimentally measured values of signal and idler wavelengths as a function of the pump wavelengths.

© 1992 Optical Society of America

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