在两分钟之内可完成等离子体电位、悬浮电位、电子能量分布和电子密度的测量。
Getting the plasma potential, floating potential, energy distribution and density of electron takes no more than two minutes.
讨论了各种靶激光等离子体的电子温度、密度及离化态分布的特点并与理论计算的结果进行了初步的比较。
The ionization state distributions of different targets are also discussed and compared with the theoretical calculated results for a simple model.
分析了等离子束射流温度、密度、压力和速度场的空间分布特点以及它们之间的内在联系。
The spatial distribution characteristics of plasma flow temperature, density, pressure velocity field and intrinsic relation of them were completely analyzed.
等离子体厚度、入射波频率、电子数密度分布对功率反射系数的影响几乎与波的极化方向无关。
The effect of plasma thickness, wave frequency, electron number density distribution on it is almost independent of the wave polarizing direction.
对于等离子体空间分布存在较大的密度梯度的物理问题,必须考虑二维空间特性对磁场渗透速度的影响。
Strong two dimensional effect on the field penetrating speed should be included in the fluid analysis for a plasma space distribution with high density gradient.
利用朗缪尔静电双探针诊断了蒸发镀膜装置反应室内等离子体密度及分析其分布规律,并分析了气压和功率对等离子体分布的影响。
The characteristic of spatial distribution of plasma ion density in reaction chamber were diagnosed by a Langmuir double probe, and the effect of Ar pressure and RF power were also investigated.
研究了等离子体温度、密度和共振层位置等参数及波的入射角对波迹和功率沉积分布的影响。
Influences of the incident Angle for wave and plasma parameters such as temperature, density and location of resonance layer on wave traces and power deposition distribution were studied.
结果表明,放电气压、电流以及环电极的有效宽度均影响等离子体密度和温度的径向分布。
The results show that, the gas pressure, electrical current, and the virtual breadth of the annular electrode affect the radial distribution of the plasma density and temperature.
由LPI2D程序计算的激光等离子体srs谱较好地再现了实验谱,并由此表明SRS谱与腔靶晕区等离子体密度分布密切相关。
SRS theoretical spectrum from LPI2D code are agreeable with experiment spectrum. The results show SRS spectrum are dependent closed in plasma density distribution in cavity target.
获得了不同靶材料等离子体的靶面法向电子密度分布,以及铜等离子体电子密度的时间演化。
We have obtained the electron density distribution in the normal direction of different targets. The time evolution of electron density of Cu plasma has been obtained.
但环电极有效宽度的减小使得等离子体密度的分布更不均匀,并使总的密度和平均温度均下降。
But the lessening of virtual breadth of the annular electrode makes the radial distribution of plasma density more unequal, and the total density and the average temperature lower.
研究了等离子体的密度、温度的分布变化。
Changes in the distribution of the plasma density and temperature were also studied.
当外加射频频率远大于离子等离子体频率,离子响应平均场,离子的密度分布几乎不随时间变化;
When the external RF frequency is much bigger than ion plasma frequency, ions answer average field.
在两分钟之内可完成等离子体电位、悬浮电位、电子能量分布和电子密度的测量。
Getting the plasma potential, floating potential, energy distribution and density of electron takes no more than two minute...
给出了等离子体电子密度线性分布和指数分布时,雷达电磁波的频率、电子碰撞频率、等离子体密度对电磁波衰减的影响。
For different plasma-density profiles, the effects of the frequency of EM wave, collisional frequency and plasma density on the attenuation of electromagnetic wave were discussed.
曲线及等离子体区的温度分布和电子、离子、原子、分子等粒子的数密度分布。
And the distributions of temperature, number density of electrons, ions, atoms and molecules in air plasma and the pressure distribution about the whole arc field were obtained.
在优化低杂波电流驱动实验参数的条件下,等离子体密度、温度分布发生了理想的变化。
In the optimal LHCD condition, profiles of plasma density and temperatures have been changed as expected.
在此模型中,把非均匀等离子体球分成若干个同心等离子体球壳,并且假定每一个同心壳层内等离子体密度均匀分布。
In this model, the nonuniform sphere is modeled by Numbers of concentric spherical shells, and each has a fixed electron density.
当激光入射到非均匀的各向同性等离子体时,垂直于主密度梯度方向的密度分布会发生变化,使临界面呈现波纹。
When laser beam is incident on an inhomogeneous isotropic plasma, the variations in density profile perpendicular to main density gradient may develop, producing a rippling of critical surface.
带喷流再入假目标是战略导弹弹头突防的一种重要手段,电子密度及其分布是等离子体发生器实现飞行器隐身的关键。
Reentry bait with cascade is an important means of strategic missile-warhead penetration . Eletron consistence and their distribution is the sticking point of the plasm production implement.
采用扩散模型,数值模拟了等离子体密度在垂直方向上的空间分布,并比较好地解释了实验测量结果。
Profile of plasma density along the vertical direction was modeled by a diffusive model, and the simulation result can be used to interpret qualitatively the measurement valu...
采用扩散模型,数值模拟了等离子体密度在垂直方向上的空间分布,并比较好地解释了实验测量结果。
Profile of plasma density along the vertical direction was modeled by a diffusive model, and the simulation result can be used to interpret qualitatively the measurement valu...
应用推荐