1) probability
[英][,prɔbə'bɪləti] [美]['prɑbə'bɪlətɪ]
几率
1.
A Probability Wave Theory on the Ion Movement Across Cell Membrane;
离子跨膜迁移的几率波理论
2.
Two-Photon state function with spontaneous parametric down-conversion and its probability explanation;
SPDC双光子态函数及其几率解释研究
2) probaility
概率,几率
3) stacking fault probability
层错几率
1.
The stacking fault probability and damping capacity of Fe-19Mn,Fe-17Mn-2Cr and Fe-19Mn-1.
5S i这3种合金的层错几率和阻尼性能进行研究。
2.
In order to disclose the high damping mechanism of Fe—Mn alloy,the effects of deep- cooling and temperature on damping capacity were studied by measuring stacking fault probability and using G-L dislocation model.
通过测定Fe-Mn合金的层错几率以及借助G—L位错脱钉模型,研究了深冷处理和温度对其阻尼性能的影响。
3.
The phase structures and stacking fault probability were determined by XRD.
利用倒扭摆测试合金的阻尼性能,采用SEM观察合金的微观组织,通过XRD测定合金的相组成以及层错几率。
4) reaction probability
反应几率
1.
The reaction probability,the reaction cross-section and the thermal rate constants at T=300,500,and 700 K for the reaction have been evaluated,and it is indicated by comparison that the thermal rate constants calculated in this work agree well with the experimental data.
文中计算了该反应的反应几率、反应截面以及在T=300、500、700 K时的热速率常数。
2.
The relative translational energy and reactive cross section σ_r and the effect of relative translational energy on reaction probability are studied, and the microscopic mechanisms of the r.
得到了该反应的产物分布情况和各通道之间的竞争,研究了相对平动能与反应截面的关系以及相对平动能对反应几率的作用,同时对该反应的微观机理也作了一定的探讨。
3.
The energy dependence of the calculated reaction probability shows oscillatory structures,similar to those observed in the reactions H+H 2,H+CH 4 etc.
计算结果表明 ,反应几率随平动能的变化曲线 ,呈现出显著的量子共振特性 。
5) probability
[英][,prɔbə'bɪləti] [美]['prɑbə'bɪlətɪ]
跃迁几率
1.
Calculation of transitions wavelength, probability, oscillator and level lifetime of Au~(48+) in Au laser-produced plasma;
根据扩展的相对论多组态Dirac-Fock理论,采用"全相对论原子结构程序(GRASP2)",考虑重要核的有限体积效应、量子电动力学效应(QED)和Breit修正以及组态间的相互作用,计算类镓Au48+的能级寿命、能级宽度、跃迁波长、跃迁几率和振子强度。
6) linked ratio
键合几率
补充资料:几率
分子式:
分子量:
CAS号:
性质:见概率。
分子量:
CAS号:
性质:见概率。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条