Researchers analyze the dynamic process of multi-pillars continuous damage of the pulse compression grating under picosecond laser irradiation

Update time: 2023-01-03

Researchers from the Shanghai Institute of Optics and Fine Mechanics of the Chinese Academy of Sciences (CAS), in collaboration with Wuhan University of Technology, University of Science and Technology of China and Research Center of Laser Fusion of the China Academy of Engineering Physics, analyzed the dynamic process of multi-pillars continuous damage of the pulse compression grating under picosecond laser irradiation. The result has indicated the direction for improving the picosecond laser damage resistance of pulse compression grating. Related research was published in High Power Laser Science and Engineering entitled “Multilayer dielectric grating pillar-removal damage induced by a picosecond laser”.

As the key optical component of picosecond high-energy petawatt laser system, the laser-induced damage problem of pulse compression gratings is a key bottleneck factor restricting the output capacity of the laser system. Determining the laser damage dynamic process of grating components is the key way to clarify their damage mechanism and improve the damage threshold.

The research group extracted and correlated the typical damage morphologies of the pulse compression grating after a single picosecond-pulsed laser irradiation. Combined with theoretical simulation, researchers confirmed that the process of multi-pillars continuous damage is manifested as follows: the laser electric field enhancement in the grating relief and the shallow defects on its surface together triggered the local eruption of the grating material.

Afterwards, the impact pressure of the ejected materials caused the adjacent pillars to fracture. The simulation results showed that the eruptive pressure, generated by the local ionized material of the grating resulted in a stress concentration at the root of the adjacent pillar, was sufficient to cause damage, corresponding its damage characteristics in the experiment. The picosecond laser damage process of the grating is affected by shallow defects, strong electric field and strength of the grating pillars.
This study provides a direction for improving the picosecond laser damage resistance of pulse compression grating.


Figure 1. Schematic representation of the picosecond laser-induced damage process of multilayer dielectric grating. (Image by SIOM)

Article website:
https://doi.org/10.1017/hpl.2022.34

Contact:
WU Xiufeng
General Administrative Office
Shanghai Institute of Optics and Fine Mechanics, CAS
Email: xfwu@siom.ac.cn
Web: http://english.siom.cas.cn/

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