Finally, the optimal electron collision frequency of the non-magnetized plasma is presented.
最后,给出了非磁化等离子体的最佳碰撞频率。
The electron collision frequency is one of the important parameters of the non-magnetized plasma. It plays an important role in the interaction of the plasma with electromagnetic waves.
电子碰撞频率是非磁化等离子体的一个重要参数,它对等离子体与电磁波相互作用的性质具有较大影响。
So what happens almost instantaneously after the collision, the electron up here falls back down.
所以在碰撞后,几乎同时,在这儿的电子又回去了。
Positron and electron (particle and anti-particle) can annihilate in collision turning into electromagnetic radiation.
正电子和电子(粒子和反粒子)在对撞中会发生湮灭,并产生电磁辐射。
One way to create such short bursts of gamma rays is through the collision — and subsequent annihilation, as the mass of those particles converts into energy — of an electron and a positron.
制造伽马射线短脉冲的一种方法,是电子与正电子的碰撞——之后的湮灭,使粒子的质量转化为能量。
The results show that the magnetic field affects the electron transport parameters obviously through changing the collision rate between the electrons and neutral particles.
模拟结果表明,横向磁场通过改变电子与中性粒子的碰撞速率,对电子参数产生不同程度的影响。
The energy equipartition time is longer than the interparticle collision time by the mass ratio of proton and electron.
由于质子与电子的质量比很大,能量平衡时间比粒子间碰撞时间长。
Moreover, the average collision cross-section between a slow electron and a neutral particle is measured at several different temperatures using both the interferometer and the transmission methods.
本文将条纹干涉仪与透射仪联合使用,测定了在某些温度下慢电子与中性粒子的平均碰撞截面。
The electron free flying time is determined by the electron -neutral particle collision frequency.
电子的自由飞行步长由电子与中性粒子的碰撞频率来决定。
The LS coupling representation of electron -ion system is used, the exchange effect is taken into account and the angular factors of collision matrix elements are treated in detail.
其中采用了电子与离子系统的LS耦合表象,考虑了交换效应,仔细处理了碰撞矩阵元的角部分因子。
The electron density, the electron -neutral inelastic collision rates, the electron energy and the electron flux distribution are calculated.
计算了电子的密度分布,电子与中性粒子的非弹性碰撞速率,以及电子能量和电子通量分布等。
The multichannel R-matrix code is employed to compute the collision strengths for electron-impact excitation of pentacid Mg ion.
考虑了内壳层电子激发的组态相互作用后,采用R矩阵方法计算了电子碰撞类锂碳离子的共振激发碰撞强度。
The single electron detachment of negative ions in collision with atoms is known to be one of the most fundamental processes occurring in plasma physics, astrophysics, and ionospheric physics.
负离子与原子碰撞的单电子脱附过程是普遍存在于等离子体物理、天体物理、电离层物理学中的重要过程。
Aiming at the unmelted powders splash from collision between electron and powders, optimized process parameters is selected to pre-heat the powders to obviously reduce the splash.
针对实验中出现的电子与粉末碰撞造成的未熔粉末的飞溅,采用优化的工艺参数对粉层进行预热,从而大大减少了未熔粉末的飞溅。
The velocity distribution function of the electron gas is measured by using Franck-Hertz experiment instrument, and the dynamical process of collision between electron and argon atom is analyzed.
利用夫兰克-赫兹实验仪测量了电子气体的速度分布函数,并分析了电子与氩原子碰撞的动力学过程。
A representative radial wave function of two electrons scattered in the collision of an electron with a hydrogen atom. (Image courtesy of National Energy Research Scientific Computing Center.)
由于电子与氢原子碰撞所造成的典型双电子散射所造成的放射状波函数(此图形由国家能源研究科学计算中心所提供。)
The results have been explained with electron molecule collision theory and the principles of Radiation Ch…
实验结果用电子与分子碰撞理论及辐射化学原理予以定性解释。
A example about their applications to integral calculations in electron-ion collision is given.
并举例说明这些特征在电子-离子碰撞的积分计算中的应用。
Using the collision of relativistic laser and electron beam to study the nonlinear Compton scattering is the interdisciplinary frontier of particle physics and strong laser physics.
使用相对论性强激光与电子束对撞中产生的辐射研究非线性康普顿散射是粒子物理与强激光物理两个领域的交叉前沿课题。
The microscopic processes of an electron avalanche are discussed and calculations are made by the statistics of collision probability.
本文以碰撞几率定律——电子自由程分布律为基础,进行统计计算,导出了碰撞次数公式及电子繁流公式。
This work focus on the calculation of the cross-section of the electron-hydrogen like Uranium collision. The interference effect of DR and RR was investigated near the resonant energy.
本工作计算了电子与类氢的铀离子碰撞截面随能量的变化,研究了在共振能量附近,DR和RR过程的干涉。
Positron or electron-atom collision theory is a main and fundamental area of atomic and molecular physics.
正(负)电子与原子的碰撞理论是原子与分子物理主要的研究领域。
When the electrons-neutral collision frequency is less than the EM angular frequency, the collision absorption rates increase with the electron-neutral collision.
当电子-中性粒子的碰撞频率低于电磁波的角频率时,碰撞会加强电子的碰撞吸收和静电波的吸收;
When the electrons-neutral collision frequency is less than the EM angular frequency, the collision absorption rates increase with the electron-neutral collision.
当电子-中性粒子的碰撞频率低于电磁波的角频率时,碰撞会加强电子的碰撞吸收和静电波的吸收;
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