Type: Article

Optimization of a double-pass scheme for thermal de-phasing compensation in high-power second-harmonic generation

Journal: Journal of the Optical Society of America B: Optical Physics (07403224)Year: 2020Volume: 37Issue: Pages: 9 - 18

Sabouri S.^aKhorsandi A.^a

a :University of Isfahan - IRAN(IR) - Isfahan

DOI:10.1364/JOSAB.37.000009Language: English

Abstract

The performance of a double-pass scheme is theoretically investigated for the efficiency enhancement of a second-harmonic (SH) beam generated by using a high-power fundamental laser beam. Based on a modified version of coupled equations that include the possible effects leading to the thermal de-phasing, the Collins integral is used for optimizing the focusing optics to obtain maximum efficiency of SH conversion. We found through simulation that at a fundamental power of 40 W, when the focusing regime is set for the loose condition, a conversion efficiency of 74% can be reached. It is possible if the focusing points of the first and second passes are designed to be located at 19 mm and 6 mm away from the input face of the crystal, respectively. © 2019 Optical Society of America

Author Keywords

Other Keywords

FocusingHarmonic generationLaser beamsNonlinear opticsCollins integralCoupled equationDouble passEfficiency enhancementFocusing opticsHigh powerMaximum EfficiencySecond harmonicsEfficiency