抑制相干噪声的照明系统仿真与误差分析

Simulation and error analysis of illumination system with coherent noise suppression

  • 摘要: 提出通过离轴照明系统抑制相干噪声的方案,设计了一种具有抑制相干噪声能力的照明系统。通过Zemax的非序列模式对照明系统进行仿真,得到了厚度为90 μm的离轴环形光斑,验证了此照明系统对相干噪声的抑制能力。将其作为19.05 mm(3/4英寸)Fizeau干涉仪的光源,设置对比实验,光源波长为632 nm,设置圆形噪点尺寸为120 μm~500 μm和尺寸为100 μm×350 μm的划痕。对设计的照明系统进行误差分析,优化照明系统成像质量,调整干涉系统参数,最终在照明光环宽度为42 μm、干涉腔长为15 mm情况下,干涉条纹的对比度提升至97.60%。

     

    Abstract: A scheme for coherent noise suppression by an off-axis illumination system was proposed, and an illumination system with the ability to suppress coherent noise was designed. The illumination system was simulated by the non-sequential mode of Zemax to obtain an off-axis annular light spot with a thickness of 90 μm. To verify the ability of this illumination system to suppress coherent noise, it was used as the light source of a 19.05 mm (3/4 inch) Fizeau interferometer. A comparative experiment was carried out with a light source wavelength of 632 nm, and scratches were set with the circular noise spots size of 120 μm~500 μm and the size of 100 μm×350 μm. Error analysis of this illumination system was performed to optimize the imaging quality of the illumination system and adjust the parameters of the interferometric system. Finally, the contrast of the interference fringe was improved to 97.60% with illumination ring thickness of 42 μm and interference cavity length of 15 mm.

     

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