Spatio-temporal evolution of femtosecond laser pulses in dielectric multi-layers controlling the damage behavior

Laser Damage Pub Date : 2021-10-12 DOI:10.1117/12.2600528
M. Lenzner, Amir Khabbazi Oskouei, L. Emmert, M. Jupé, T. Willemsen, M. Steinecke, D. Ristau, W. Rudolph
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Abstract

When designing femtosecond laser mirrors, one tries to minimize the peak intensity within the high-index layers to increase the laser-induced damage threshold. Typically, the optimization procedure utilizes the electric field distribution in the layer stack generated by monochromatic irradiation. This approach is sufficient for certain structures like high-reflectors based on quarter-wave films. More complex structures require to take into account the exact evolution of the pulse parameters such as peak intensity and duration within the multi-layer system. We exemplify this by discussing a merit function that can be included in femtosecond optics design.
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飞秒激光脉冲在介质多层中的时空演化控制损伤行为
在设计飞秒激光反射镜时,应尽量减小高折射率层内的峰值强度,以提高激光损伤阈值。典型的优化过程是利用单色辐照产生的层叠中的电场分布。这种方法对于某些结构是足够的,比如基于四分之一波薄膜的高反射器。更复杂的结构需要考虑脉冲参数的确切演变,如峰值强度和持续时间在多层系统中。我们通过讨论可包含在飞秒光学设计中的优点函数来举例说明这一点。
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Laser Damage
Laser Damage
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