激光能量密度对CMOS探测器的感光面热应力的影响研究

Influence of laser energy density on thermal stress at photosensitive layer of CMOS detector

  • 摘要: 开展了入射脉冲激光能量密度对纳秒脉冲激光辐照CMOS(complementary metal oxide semiconductor)光电探测器的感光面(二氧化硅层/硅层交界面)处热应力的影响研究。建立了CMOS光电探测器的仿真几何结构模型,基于傅里叶热传导方程及热力耦合方程组对纳秒脉冲激光辐照下CMOS光电探测器感光面中心点温升和热应力进行了仿真计算,并对入射脉冲激光能量密度对温升时间演化过程以及热应力的空间分布进行了探讨。仿真计算结果表明,随着入射脉冲激光能量密度增大,CMOS光电探测器的感光面处峰值温度增加以及热应力增大。在纳秒脉冲激光辐照CMOS光电探测器时,感光面处存在的拉应力使CMOS光电探测器先发生力学损伤,随着激光能量密度增大,再发生热学损伤。研究结果对于纳秒脉冲激光诱导CMOS光电探测器损伤机制以及损伤效果的研究具有一定的理论支持。

     

    Abstract: A study was conducted on the influence of incident pulse laser energy density on the thermal stress at the photosensitive layer (silicon dioxide layer/silicon layer interface) of a nanosecond pulse laser irradiated complementary metal oxide semiconductor (CMOS) photodetector. A simulation geometric structure model of CMOS photodetector was established. Based on the Fourier thermal conduction equation and thermal coupling equation system, the temperature rise and thermal stress at the central point of the photosensitive surface of CMOS photodetector under nanosecond pulse laser irradiation were simulated and calculated. The influences of incident pulse laser energy density on the temperature rise time evolution process and the spatial distribution of thermal stress were discussed. The simulation results show that as the energy density of the incident pulse laser increases, the peak temperature and the thermal stress at the photosensitive layer of the CMOS photodetector increase. When a nanosecond pulse laser irradiates a CMOS photodetector, the tensile stress at the photosensitive layer causes mechanical damage to the CMOS photodetector first. As the laser energy density increases, the thermal damage occurs. The research results have certain theoretical support for the study of the damage mechanism and damage effect of nanosecond pulse laser induced CMOS photodetector.

     

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