Simulation analysis of thermal effects of protective sampling 
panel for array target

doi:10.3969/j.issn.1007-5461.2023.06.008

Abstract

Abstract: Detector array target is a common device for measuring the distribution of laser spot, and the sampling panel of array target needs higher damage resistance under long-term high-power laser irradiation. In order to improve the damage resistance of the sampling panel, based on the finite element analysis software Ansys Workbench, from the perspective of thermal design, the research compares the temperature field and thermal stress of the protective sampling panels with different thicknesses, different heat pipe arrangements and different interface heat transfer coefficients under long-term high-power laser irradiation. The analysis results show that after adding a cross heat pipe arrangement, the withstand peak power density of the sampling panel with a thickness of 6 mm increases from 1470.9 W·cm-2 to 3632.1 W· cm-2 when the laser irradiation lasts for 120 s. This simulation analysis provides effective theoretical and data support for the design of protective sampling panel for array target.

Key words: laser technology, detector array target, finite element analysis, thermal analysis, static analysis

CLC Number:

TN247

ZHANG Kai , , TAN Fengfu, , HOU Zaihong, , HUANG Zhigang, , QIU Chenxiang, , ZHANG Silong, , WU Yi , . Simulation analysis of thermal effects of protective sampling panel for array target[J]. Chinese Journal of Quantum Electronics, 2023, 40(6): 879-887.

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Simulation analysis of thermal effects of protective sampling panel for array target

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