同位素分子

塞曼效应在Cl2~+及其同位素分子离子光谱标识中的应用

Application of the Zeeman Effect to the Spectral Assignment of Cl_2 ~ + Including Its Isotopics

此外，还用该势能面计算了OCS同位素分子的振动能级，计算结果与实验值也十分吻合。

The vibrational energy levels for some isotopomers of OCS are also investigated using the optimized potential and in excellent agreement with the observed values .

本文报导用特殊的饱和吸收方法观测到混合同位素分子~（172）I~（129）I又一振转跃迁的超精细光谱。

The hyperfine spectrum of another ro-vibrational line of mixed isotopic molecules ~ ( 127 ) I ~ ( 129 ) I has been observed by a specific saturated-absorption spectroscopy .

计算氢同位素水分子汽化焓的比较法

Comparative method for the calculation of vaporization enthalpy for hydrogen isotopic water molecules

因此，在太平洋上空形成的雨水在加利福尼亚州释放的雨水所含同位素的分子量要大于犹他州的。

As a result , storms that form over the Pacific deliver heavier water to California than to Utah .

基于核运动效应下的H同位素双原子分子的解析势能函数

Analytic Potential Energy Functions for Hydrogen Isotopic Diatomic Molecules Based on Nuclear Effect

最后本文提出了一种利用串联质谱同位素信息进行分子式预测的算法和系统FFP（FragmentionFormulaPrediction），无论从计算效率上还是预测精度上较以前的方法都有了很大的提高。

In this thesis , we also develop a new method FFP ( Fragment ion Formula Prediction ) which can predict the best formulas of fragment ions more accurately through the minimization of the distance between theoretical and observed isotope patterns within less time .

氢同位素双原子分子的解析势能函数

Analytic Potential Energy Functions for Hydrogen Isotopic Molecules

排列通道的量子力学&Ⅱ、氢同位素多原子分子结构的研究

Arrangement channel quantum mechanics ii , the study on the molecular structure for polyatomic hydrogen isotope molecules

He同位素与H2分子碰撞第二振动激发分波截面的理论研究

Theoretical study on the partial cross section for the second vibrational excitation in He-H_2 collisions

He同位素原子与HBr分子碰撞的微分截面

Differential cross sections for collisions between He isotope atoms and HBr molecules

论证了激光分离铀同位素阈能反应分子法在高浓铀小规模（10kg／a）生产中的可行性。

It is shown that it is able to produce highly enriched uranium in a small scale of 10 kg / a using so called threshold chemical reaction method for laser-based separation of uranium isotopes in molecular forms .