The main objective of this study was to assess the molecular simulation of the design of carbon dioxide (CO₂) and to construct infrared optical filters for the transmission and absorption of the CO₂ laser and the emission of gaseous CO₂ radiation. Semiconductor compounds used to determine the wavelength of infrared transmission and absorption infrared radiation (IR) to produce an IR filter for laser production and gas emission using the Fourier Transform infrared spectrometer (FT-RI) for research purposes. Carbon dioxide molecule simulation has been used based on Hyper 6 simulation programme in potential energy, and kinetic energy, which measures the infrared radiation spectrum. Infrared filters are constructed from the compounds of a semiconductor of Zinc Sulfide supplied (ZnS), Aluminum Oxide (Al₂O₃), Magnesium Oxide (MgO), Lead (II) Sulfide (PbS), and Potassium Chloride (KCl). The data used for evaluation of the optical elements in the IR region based on the transmission and absorption of radiation intensity effective for wavelength detection. The assessment of the detection is indicating transmission and absorption of the wavelengths of CO₂ laser and CO₂ gas molecule under investigation. This study has identified the approach of the result of transmission and absorption of the peak intensities of 10.6, 2.7, 4.3 and 15μm of CO₂ laser and gas radiation emission of the filters in the IR region. The findings of this study have a number of important applications in the IR radiation region.

中文翻译：

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适用于二氧化碳和二氧化碳激光的红外滤光片的设计与仿真

这项研究的主要目的是评估二氧化碳（CO ₂）设计的分子模拟，并构建用于传输和吸收CO ₂激光以及发射气态CO _2的红外滤光片。辐射。半导体化合物用于确定红外透射和吸收红外辐射（IR）的波长，以使用傅里叶变换红外光谱仪（FT-RI）来生产用于激光生产和气体发射的IR滤光片，用于研究目的。基于Hyper 6模拟程序，已使用二氧化碳分子模拟来测量势能和动能，以测量红外辐射光谱。红外滤光片由供应的硫化锌（ZnS），氧化铝（Al ₂ O ₃）的化合物构成），氧化镁（MgO），硫化铅（II）（PbS）和氯化钾（KCl）。基于对波长检测有效的辐射强度的传输和吸收，用于评估IR区域中的光学元件的数据。检测的评估表明所研究的CO ₂激光和CO ₂气体分子的波长的透射和吸收。这项研究已经确定了传输和吸收CO ₂激光的10.6、2.7、4.3和15μm峰值强度的结果的方法，以及IR区域中滤镜的气体辐射发射的方法。这项研究的发现在红外辐射区域有许多重要的应用。