摘要
通过介绍锑化铟红外探测器的基本构成及其材料热学相关特征,阐述了激光辐照锑化铟红外探测器造成的损伤机理,采用有限元分析法,分析相关的辐照环境和条件并建立了一种三维仿真模型。仿真模拟了波长为10.6μm的CO_2激光辐照锑化铟红外探测器时各部分的温度变化情况,通过数值分析得出了在光斑面积一定的情况下只有激光功率密度增大到一定程度时,锑化铟探测器表面才会发生熔融损伤,且功率密度越高,造成破坏所需的时间越短;对于探测器各部分受到不同脉冲宽度的激光辐照时,损伤阈值与脉冲宽度的对数之间呈线性变化。将锑化铟探测器材料的损伤阈值区间,同已有实验数据进行对比,验证了模型的精确性。
The basic structure and the thermal properties of materials used in In Sb infrared detectors are introduced. The mechanism behind the damage caused to the In Sb infrared detector due to laser irradiation is elaborated. We build a 3D simulation model and analyze related irradiation environment and conditions by using a finite element method. The change of temperature taking place in each part of the In Sb infrared detector under a CO2 laser irradiation of wavelength 10.6μm is simulated. The result obtained using the numerical analysis method shows that the increase of the laser power density to a certain extent can make the surface of In Sb detector melt only if the spot area is unchanged. The higher the power density, the shorter the time it takes to cause the damage. Furthermore, the damage threshold is found to change linearly with the logarithm of pulse width when each part of the In Sb detector is irradiated with a laser of a different pulse width. Thus, the accuracy of the In Sb detector model is verified by comparing it with the existing experimental data for damage threshold interval.
作者
张悦
牛春晖
李晓英
张巧云
ZHANG Yue,NIU Chunhui,LI Xiaoying,ZHANG Qiaoyun(College of Instrumentation Science & Photoelectric Engineering, Beijing Information Science & Technology University, Beijing 100192, Chin)
出处
《红外技术》
CSCD
北大核心
2018年第6期528-533,共6页
Infrared Technology
基金
北京市自然科学基金资助青年项目(4154071)
北京市优秀人才培养资助青年骨干个人项目(201400002012G105)
