incident particle

The Incident Particle and the Geometric Phase Relative to the Gauge Field

与入射粒子及与规范场有关的几何相因子

Incident particle , gauge field and geometric phase

入射粒子、规范场和几何位相

And I am saying electron , but more generally it applies to any incident particle .

我说的是电子，但根通俗的来说它就是，入射粒子。

We find under the existing of the resonance level , it has resonance peak and its location changes with the incident particle energy , the width and height of the barrier .

由于共振能级的存在，会出现共振峰，并且共振峰会随着势垒的宽度和高度的变化而变化。

Of all the physical process , low energy electromagnetic processes is the main interaction between incident particle and scintillator , while photon absorption process , boundary process and photon transmission are also involved . Secondly , the detector performance is studied intensively .

在物理过程中，入射粒子与闪烁体之间主要是低能电磁相互作用过程，还涉及到光子吸收过程、边界过程和光子的传输过程。其次，对该探测器的性能做了比较深入细致的模拟研究。

The reflection coefficient and transmissivity of the incident neutral particle flux in a homogeneous halo plasma are estimated .

估计了均匀晕等离子体区对入射中性粒子通量的反射率和透射率。

Boundary Condition for Obliquely Incident Laser in Particle Simulation

粒子模拟激光斜入射边界条件的处理

The influence of incident velocity on particle confinement time is discussed , and the result shows that the incident velocity of reflected particles directly determines on the magnitude and the profile .

讨论了粒子入射速度对粒子约束时间的影响，结果表明反射粒子入射速度直接决定粒子约束时间的大小和空间分布。

The influence of incident velocity on particle confinement time is analyzed . The result shows that particle confinement time is 4 ~ 8 ms with normal discharge in HT-6M Tokamak , the velocity of reflected particles directly dominate the magnitude and the radial profile of particle confinement .

分析了粒子入射速度大小对粒子约束时间的影响，结果表明，正常放电下，HT6M托卡马克粒子约束时间在4~8ms；反射粒子的速度大小直接决定粒子约束时间的大小和空间分布。

The incident velocity of recycling particle has been given with Gaussian fitting .

通过高斯拟合，得出了再循环粒子的入射速度。

The effective attenuation length of the water tank was measured to be ( 5.74 ± 0.29 ) m , and the light collection probability as a function of the incident angle of the particle is studied .

测量得到的水箱的有效衰减长度为（5.74±0.29）m，并且研究了光的收集能力随入射粒子角度变化的关系。

For the first time this thesis presents the relationship between incident and lift-off physical quantities of particles effected by incident speed , incident particle size and slope angle .

本文首次系统的给出了各起跳物理量与入射速度、入射粒径和波纹倾角的变化关系。

The results show that total photon collection efficiency is associated with the particle incident location on scintillator , time resolution is related to the kinds of incident particle , incident position , energy and reflectivity of Aluminum reflector .

研究结果表明，光子总的收集效率与粒子在闪烁体上的入射位置有关；时间分辨与入射粒子的入射位置、种类、能量以及铝反射层的反射率有关。