Teillet程序于1980年引入我国,在穆斯堡尔谱学研究领域得到了一定的使用。它采用了从最一般化的物理图象——在任意取向的磁场和不对称电场梯度中的核γ共振——出发的全谱拟合计算方法:用量子力学的简并态微扰理论从头计算在特定电磁相互作用下核能级的分裂情况和零级近似波函数,用Blatt和Weisscopf方法计算各个允许跃迁的辐射场相对强度,从而对每一套具有特定化学环境和位置对称性的核获得其穆斯堡尔谱的谱线位置和相对峰高信息,并据此以洛伦兹线型函数计算出它的理论谱。在数学处理上采用了修改的牛顿-高斯 Teillet program was introduced to our country in 1980, and has been used in the field of Mossbauer spectroscopy. It uses a full-spectrum fitting from the most generalized physical image - nuclear gamma resonance in an arbitrarily oriented magnetic field and an asymmetric electric field gradient - a method of deconvolution using degenerate states of quantum mechanics The splitting of the nuclear energy level and the zero-order approximation wave function under a specific electromagnetic interaction are calculated, and the relative intensities of the radiation fields of each allowable transition are calculated by using the Blatt and Weisscopf methods, so that each set of nuclei with specific chemical environment and position symmetry is obtained Its Mossbauer spectrum position and relative peak height information, and accordingly calculated its theoretical spectrum Lorentz linear function. In the mathematical treatment of a modified Newton - Gaussian