1) electron momentum distribution
电子动量分布
1.
Theoretical electron momentum distributions for valence orbitals of CH_3Br and CH_3I;
CH_3Br和CH_3I分子价轨道电子动量分布的理论计算
2) atomic_momentum distribution
原子动量分布
1.
Compared with the case of degenerate ground states and laser_atom resonance,the most probable value of the atomic_momentum distribution greatly decreases and much longer trapping time is needed in order to generate the same trapping effect.
指出相对于简并、共振情况,原子动量分布的概率峰峰值降低、最可几动量发生变化,而且原子的俘获时间也变得很长。
3) Energy distribution of photoelectron
光电子能量分布
4) electron energy distribution
电子能量分布
1.
The study of the electron energy distribution driven by ellipse polarized laser;
基于OFI椭圆偏振光场等离子体中电离电子能量分布的研究
2.
By calculating the energy distribution of electrons reaching the photocathode surface and solving the Schrdinger equation that describes the behavior of an electron tunneling through the surface potential barrier,we obtain an equation to calculate the emitted electron energy distribution of transmission-mode NEA GaAs photocathodes.
通过计算电子到达阴极面时的能量分布和求解电子隧穿表面势垒的薛定谔方程得到了透射式NEA GaAs光阴极发射电子能量分布的计算公式。
3.
The symmetrical and asymmetrical double probes have been used to diagnose the electron temperature and the electron energy distribution in the dielectric barrier discharge,respectively.
用对称双探极和非对称双探极分别诊断氖气中介质阻挡无声放电的电子温度和电子能量分布 。
5) quantum distribution
量子分布
6) momentum distribution
动量分布
1.
This article deduces molecular beam s momentum distribution function,calculates mean momentum,root mean square momentum and furthorest possible momentum,and compares them with the characteristic physics quantities corresponding to molecular beam s speed distribution function one by one.
本文首先推导出分子束的动量分布函数 ,然后计算了平均动量、均方根动量和最概然动量 ,并与分子束的速率分布函数相应的特征物理量逐一比
2.
The fractal momentum dimension of momentum distribution of single-particle in central region produced in high energy hadron-hadron collision is calculated with fractial theory.
应用推广的分维计算式,讨论了在高能强子—强子碰撞中产生的末态粒子动量分布在快度中心区的分维数,发现在质心系能量为11。
3.
The dimension of single particle momentum distribution in high energy PP(P) collisions is calculated with fractal dimension theory extrapolated to momentum space,at CMS energy S=540 GeV,the calculation is of two dimensions.
用推广的分维计算式计算在高能质子反质子碰撞中产生的末态粒子动量分布的维数,在质心系能量S=540GeV下,求得中心区的分维数是二维
补充资料:电子分布
在原子核外各电子层上电子的数目.
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