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Modified Frantz-Nodvik equation and numerical simulation of a high-power Innoslab picosecond laser amplifier

Bingnan Shi, Jiatong Li, Shuai Ye, Hongkun Nie, Kejian Yang, Jingliang He, Tao Li, Baitao Zhang

2022Optics Express12 citationsDOIOpen Access PDF

Abstract

A modified Frantz-Nodvik (F-N) equation and a simple one-dimensional unfolded slicing model for numerically simulating high-power Innoslab picosecond amplifier are developed for the first time. The anisotropic stimulated emission cross-section of laser crystal, the influence of the tilted optical path, the spatial overlap of the seed and pump laser, as well as the pump absorption saturation effect are considered. Based on the as-developed model, 4-, 6- and 8-pass schemes high-power Nd:YVO 4 Innoslab picosecond amplifiers are designed with output powers of 76.2 W, 81.4 W, and 85.5 W, respectively. The experimental results agree well with that of numerical simulation, indicating that our model is a powerful tool and paves a new way for designing and optimizing high-power Innoslab picosecond laser amplifier.

Topics & Concepts

PicosecondOpticsAmplifierComputer simulationMaterials scienceLaserOptical amplifierAbsorption (acoustics)Ultrafast laser spectroscopyAmplified spontaneous emissionOptical pumpingPhysicsSlicingAnisotropyStimulated emissionSaturation (graph theory)Laser pumpingNonlinear opticsRegenerative amplificationAttenuation coefficientSolid State Laser TechnologiesLaser Design and ApplicationsLaser-Plasma Interactions and Diagnostics
Modified Frantz-Nodvik equation and numerical simulation of a high-power Innoslab picosecond laser amplifier | Litcius