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Numerical analysis of the DKDP-based high-energy optical parametric chirped pulse amplifier for a 100  PW class laser

Jiabing Hu, Xinliang Wang, Yi Xu, Lianghong Yu, Fenxiang Wu, Zongxin Zhang, Xiaojun Yang, Penghua Ji, Peile Bai, Xiaoyan Liang, Yuxin Leng, Ruxin Li

2021Applied Optics24 citationsDOI

Abstract

An optical parametric chirped pulse amplifier (OPCPA) based on a large-aperture DKDP crystal and pumped by a 10 kJ level Nd:glass laser can serve as the final amplifier for a 100 PW level laser. A comprehensive numerical investigation on such a high-energy OPCPA is presented in this work. The effects on the efficiency-bandwidth product induced by the deuteration level, absorption loss, temperature variation, and optimization of zero-phase-mismatch wavelength (ZPMW) are analyzed in detail. Based on the analysis above, a three-dimensional numerical simulation taking into account the effects of pumping depletion, diffraction, and walk-off shows that, by optimization of ZPMW, broadband (over 210 nm spectral width in FWHM) and high efficiency (${\gt}37\%$) amplification can be realized in the DKDP crystal even with a moderate deuteration level of 70%, which can relax the requirement of a high deuteration level in a large-aperture DKDP crystal. The numerical analysis can provide meaningful guidance for the design and construction of 100 PW class laser systems.

Topics & Concepts

OpticsLaserOptical amplifierOptical parametric amplifierAmplifierPulse (music)Materials scienceParametric statisticsUltrashort pulsePhysicsOptoelectronicsCMOSMathematicsDetectorStatisticsLaser-Matter Interactions and ApplicationsLaser-Plasma Interactions and DiagnosticsLaser Design and Applications
Numerical analysis of the DKDP-based high-energy optical parametric chirped pulse amplifier for a 100  PW class laser | Litcius