Study on immersion grating used in weak carbon dioxide band detection spectrometer

Earth and Space From Infrared to Terahertz (ESIT 2022) Pub Date : 2023-01-31 DOI:10.1117/12.2665406

B. Huang, Quan Liu, Nenghua Zhou, Zongqing Wu

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Abstract

The imaging spectrometer monitoring the CO2 content in the atmosphere is mainly divided into the weak CO2 band and the strong CO2 band. Compared with the strong CO2 band, the weak CO2 band has a relatively clean spectrum, less interference from water vapor and other gases, and weaker CO2 absorption, and the instrument can receive stronger groundreflected solar radiation signals. However, the concentration of CO2 in the atmosphere is low. To use this band to detect changes in CO2 concentration, it is necessary to ensure that the detection instrument has a sufficiently high spectral resolution. Using the immersion grating as the dispersive element in the spectrometer can greatly reduce the size and weight of the instrument while achieving high spectral resolution. In this paper, the quartz immersion grating used in the weak CO2 detector is optimized and designed, the groove parameters of the grating are designed and optimized according to the requirements of the weak CO2 detector used, and the rectangle and different bottom angles are designed and optimized in consideration of the actual production error. In the 1.595-1.625 μm band, the duty cycle of the rectangular groove is 0.3-0.35, the groove depth is 560-630 nm, and the TiO2 thickness is 110-120 nm, the diffraction efficiency of the grating is higher than 80%; the duty ratio is 0.4-0.45, When the groove depth is 590-660 nm and the TiO2 thickness is 100-105 nm, the diffraction efficiency of the grating is higher than 80%. When the duty ratio of the trapezoidal groove is 0.3-0.35, the bottom angle of the trapezoid is 82°-86°, the groove depth is 590-630 nm, and the TiO2 thickness is 120-125 nm, the diffraction efficiency of the grating is higher than 80%. When the duty ratio of the trapezoidal groove is 0.4-0.45, the bottom angle of the trapezoid is 82°-86°, the groove depth is 620-670 nm, and the thickness of TiO2 is 105 nm, the diffraction efficiency of the grating is higher than 80%.

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浸入式光栅用于弱二氧化碳波段探测光谱仪的研究

监测大气中CO2含量的成像光谱仪主要分为弱CO2波段和强CO2波段。与强CO2波段相比，弱CO2波段光谱相对清洁，受水汽等气体干扰较小，对CO2的吸收也较弱，仪器可以接收到较强的地面反射太阳辐射信号。然而，大气中二氧化碳的浓度很低。要利用该波段检测CO2浓度的变化，必须保证检测仪器具有足够高的光谱分辨率。采用浸入式光栅作为光谱仪中的色散元件，可以在实现高光谱分辨率的同时，大大减小仪器的体积和重量。本文对用于微弱CO2探测器的石英浸没光栅进行了优化设计，根据所用微弱CO2探测器的要求对光栅的槽形参数进行了设计和优化，并考虑到实际生产误差对矩形和不同底角进行了设计和优化。在1.595 ~ 1.625 μm波段，矩形沟槽占空比为0.3 ~ 0.35，沟槽深度为560 ~ 630 nm, TiO2厚度为110 ~ 120 nm，光栅的衍射效率高于80%;当沟槽深度为590 ~ 660 nm, TiO2厚度为100 ~ 105 nm时，光栅的衍射效率高于80%。当梯形槽占空比为0.3 ~ 0.35，梯形底角为82°~ 86°，槽深为590 ~ 630 nm, TiO2厚度为120 ~ 125 nm时，光栅的衍射效率高于80%。当梯形槽占空比为0.4 ~ 0.45，梯形槽底角为82°~ 86°，槽深为620 ~ 670 nm, TiO2厚度为105 nm时，光栅的衍射效率高于80%。

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Earth and Space From Infrared to Terahertz (ESIT 2022)

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