同时讨论了由于引入等离子体运动速度V0以后对截止频率和可传播角度的影响。
At the same time, the effects on the cut-off frequency and propagating angles. After introducing the velocity V0 of the plasma were discussed.
等离子体激元以这种方式水平地运动,比任何来自太阳的入射光线更多地经过太阳能电池的硅。
By travelling horizontally in this way, a plasmon passes through more of the solar cell's silicon than any incident beam from the sun could.
正是这个长程库仑力给出了等离子体种类繁多的可能运动,并且丰富了称作等离子体物理学的研究领域。
It is this long-ranged coulomb force that gives the plasma a large repertoire of possible motions and enriches the field of study known as plasma physics.
在等离子体中,鞘层在控制带电粒子向极板(或靶材)方向运动方面起着至关重要的作用。
In plasma, the sheath plays a crucial role in controlling the movement of the charged particles towards the electrodes (or the target).
为了研究生物质颗粒在等离子体快速热解液化设备水平携带床热解管中的运动,设计制造了水平携带床冷态模拟装置。
A set of transparent cold model was designed for studying the movements of biomass particulate in horizontal entrained bed of the plasma heated biomass fast pyrolysis liquefaction prototype.
采用ADS方法来实现灰度显示的等离子体显示器(PDP) ,在显示运动图像时会出现动态假轮廓现象;
The dynamic false contour (DFC) of motion images will appear in plasma display panel (PDP), which uses ADS method to display gray scales.
通过严格求解广义协变的电子运动方程,讨论了强激光等离子体中自由电子的经典行为。
The classical behavior of a free electron in a strong laser plasma is discussed by solving the generally-covariant equation of motion for an electron.
在DPF- 40等离子体焦点装置中,首次观测到径向运动电流壳层的一种不稳定现象,即不稳定模式。
An instability phenomenon of the current sheath implosion, namely the unstable mode, has been observed in the DPF 40 plasma focus device.
定义了相对论磁化运动等离子体(mmp)的物理模型。
The physical model of magnetic motional plasma (MMP) is defined.
耦合电子、离子运动的流体方程,对微波等离子体的初始形成过程进行了数值模拟计算。
Coupled with fluid equations for the electron and ion motion, the microwave discharge courses are calculated.
对于等离子体柱,我们讨论了几种可以将含有压缩量项的运动方程作某些简化的情形。
For a plasma column, several cases are considered which permit us to simplify to some extent the solution of the equation of motion including the compressibility term.
等离子体显示屏在显示运动画面时会出现伪轮廓线等动态失真现象。
Dynamic false contour is a perceivable motion artifact in plasma display panel when displaying fast moving images.
计算了等离子体介质中,沿弯曲螺旋线运动的相对论电子的辐射谱,进一步导出了真空中的能量辐射公式。
The radiation spectrum for relativistic electron moving along curved spiral curve in plasmas is calculated, and also the formula of total energy emitted by a relativistic electron in vacua is derived.
利用气体放电产生的等离子体朗缪尔流效应来使敏感元件产生一定速度的运动,不需另外的驱动元件。
Plasma Langmuir flow effect produced by gas discharge was used to make sensitive component move at a certain velocity without further drive part.
运用分子运动理论和等离子体放电理论对发射电子损失的原因进行了分析。
The reasons why electrons were lost were analyzed based on the theory of molecular motion and plasma discharge.
振幅足够大的静电波在等离子体中可使带电粒子的运动轨道发生改变。
The trajectory of charged particles in a plasma will be changed by electrostatic waves with large amplitude.
以磁流体动力学(MHD)为基础建立了三维空气电弧等离子体在外部磁场作用下运动时的数学模型。
The mathematical model of 3-dimentional air arc plasma under the effect of external magnetic field is set up based on magnetic hydro-dynamics(MHD).
等离子体附着在孤波上而且随之一起横越磁场运动。
The plasma is adhered to the vortex and moving along with it across B.
中性线近地侧的等离子体团朝着地球运动,并合并于地球附近的重联区内。
The plasmoids on the earthward side of the neutral line move toward the earth and coalesce with the reconnection region near the earth.
这些等离子体激元从一点向外辐射,就像科学家设想的在大爆炸后物质粒子从一点向周围辐射运动一样。
These plasmons radiated outward from a single point, just as scientists think particles of matter radiated from a single point following the big bang.
给出了脉宽演化的方程,它类似于在势阱中运动的经典粒子的能量守恒方程;估算了脉宽压缩对应的等离子体波振幅阈值。
The equation for the evolution of the pulse width is obtained, which is analogues to the "energy conservation equation" for a classical particle moving in a potential well.
从微观机制上分析推断:外加电场使非稳态等离子体中的电子作定向运动,加剧电子与原子之间的碰撞是上述结果的主要原因。
The collision between atoms and electrons moving in a definite direction with the additional static electric field is considered to be the primary reason for the result mentioned above.
从微观机制上分析推断:外加电场使非稳态等离子体中的电子作定向运动,加剧电子与原子之间的碰撞是上述结果的主要原因。
The collision between atoms and electrons moving in a definite direction with the additional static electric field is considered to be the primary reason for the result mentioned above.
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