Simulation of Kerr Lens Modelocking Behavior in Sagittal Plane

Kamjoo Mj
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引用次数: 1

Abstract

Femtosecond oscillator is first step to generate femtosecond laser pulse. Simulation of the laser beam behavior in the oscillator cavity, especially in the gain medium is essential to realize and optimize the oscillator output pulse characteristics. In this work, at first we simulate the laser beam propagation in a folded cavity with curved mirrors in symmetric and asymmetric designs using the ABCD ray tracing technique for a Gaussian beam shape to achieve influence of Kerr lens modelocking in sagittal plane. We use split-step method to obtain the beam intensity changes in the ti:sa rod and shooting method to calculate the beam spot size on the first cavity mirror. In following the influence of the gain medium position changes on the size and position of the beam waist and also on the misalignment sensitivity parameter for the sagittal plane is simulated. Furthermore the misalignment sensitivity parameter and the size and position of the beam waist are not identical for the beams in the sagittal plane, therefore to actualize an optimum design it is necessary to simulate the beam propagation in plane which is not usually considered in early design because of complication of the simulation.
克尔透镜矢状面模型锁定行为的仿真
飞秒振荡器是产生飞秒激光脉冲的第一步。激光在谐振腔内,特别是在增益介质中的行为模拟是实现和优化谐振腔输出脉冲特性的必要条件。在这项工作中,我们首先使用ABCD射线追踪技术对高斯光束形状的弯曲反射镜进行对称和非对称设计,模拟了激光在折叠腔中的传播,以实现克尔透镜在矢状面建模锁定的影响。我们用分步法得到了光束强度在ti:sa棒中的变化,用射击法计算了第一腔镜上的光束光斑大小。其次,模拟了增益介质位置的变化对光束束腰大小和束腰位置的影响,以及对矢状面误差灵敏度参数的影响。此外,由于光束在矢状面上的偏差灵敏度参数和光束腰的大小和位置不相同,因此为了实现优化设计,有必要对光束在平面上的传播进行模拟,而在早期的设计中,由于模拟的复杂性通常没有考虑到这一点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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