宽谱段闪光光谱灵敏度均匀探测技术研究

    Research on wide-spectral-range flash spectral sensitivity uniform detection technology

    • 摘要: 针对超高速碰撞闪光和爆炸闪光光谱探测过程中,探测系统因宽谱段响应率不均匀出现的局部过饱和问题,提出基于空间光滤波器的光谱感知优化方案。依据已知闪光光谱强度分布规律及光谱探测系统光谱响应函数,采用PET(polyethylene terephthalate)薄膜材料设计并制备空间光滤波器,通过调整灰度值对400 nm~800 nm波长范围内的不同波段施加不同衰减系数,实现高响应率波段的衰减与各波段响应系数的均匀化,保留微弱光谱信号检测能力。同时考虑到空间光滤波器导致光线的偏折从而产生波长偏移现象,采用三阶最小二乘法对波长偏移进行校准。实验结果表明,响应系数的标准差由0.265 0降低至0.032 9,降低了87.59%;方差由0.071 1相应减小至0.001 1,降低了98.54%;波长偏移小于0.4 nm。通过高光强环境下的模拟实验结果可得,原本饱和的光信号特征峰显现,且强度较低的特征峰保留,未淹没在噪声中。

       

      Abstract: To address the issue of local oversaturation caused by non-uniform spectral response rates during the spectral detection of hypervelocity impact flashes and explosion flashes, a spectral perception optimization scheme based on spatial light filtering was proposed. Based on the known distribution patterns of flash spectral intensity and the spectral response functions of the detection system, a spatial light filter was designed and fabricated using polyethylene terephthalate (PET) film material. By adjusting the grayscale values, different attenuation coefficients were applied to various wavelength bands within the 400 nm to 800 nm range. This approach not only attenuated the high-response-rate bands but also equalized the response coefficients across all bands while retaining the ability to detect weak spectral signals. Additionally, third-order least squares method was employed for wavelength shift calibration. Experimental results show that the standard deviation of the response coefficients is reduced from 0.265 0 to 0.032 9, a decrease of 87.59%. The variance is correspondingly reduced from 0.071 1 to 0.001 1, a decrease of 98.54%, with the wavelength shift being less than 0.4 nm. Simulated experiments under high-light-intensity conditions demonstrate that the originally saturated light signal characteristic peaks become visible, and the characteristic peaks with lower intensity are retained and not submerged in the noise.

       

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