采用基于等离子体物理模型的时域有限差分法对其进行了研究。
It is investigated using finite difference time domain method based on Drude model.
采用基于等离子体物理模型的时域有限差分方法模拟了金属薄膜近场成像特性;采用薄膜传输矩阵方法计算了金属薄膜对倏逝波分量的放大作用。
The property of the near field subwavelength imaging in a metal thin-film structure is investigated using finite difference time domain method based on Drude model.
等离子体物理也是非常美妙!
近期主要从事于大功率微波工程和等离子体物理实验研究。
His current research interests mainly include high power microwave engineering and experimental research of plasma physics.
看来这是等离子体物理学中几个自然行为偏袒我们的例子中的一个。
This seems to be one of the few instances in plasma physics where nature works in our favor .
涉及到等离子体物理学、电磁场理论、现代雷达、机械与电气工程等众多领域。
It includes plasma physics, theory of electromagnetic field, radar technology, mechanical and electrical engineering.
设计了一个二维混合模拟程序,并用其计算了等离子体物理中的束流不稳定性。
A 2d hybrid code is designed, and in order to test it, the beam instabilities in plasma using this code is studied.
根据散斑照相和电弧等离子体物理学原理,研究了诊断氩气焊弧温度场的新方法。
A new method for the diagnostics of the welding arc temperature fields is studied on the basis of Plasma physics, laser speckle photography.
研究等离子体加热和粒子加速问题,是等离子体物理和等离子体天体物理中的重要课题。
Both the heating of plasma and the acceleration of particles are important topics in plasma physics and plasma astrophysics.
大气压非平衡等离子体由于其巨大的应用前景正成为等离子体物理学界关注的热点领域。
In recent years, the plasma physics scientific community has paid much attention to the development of atmospheric pressure, non-equilibrium plasma sources.
应用高功率微波大气传输机理和等离子体物理理论,提出了一种新概念天线等离子体有源透镜天线。
Applying the mechanics of the propagation of high power microwave in atmosphere and the theory of plasma physics, a sort of new conception antenna-active lens antenna based on plasma is put forward.
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.
多重离化态离子在原子分子物理、表面科学、等离子体物理、核物理以及天体物理中,扮演着重要角色。
The multiply charged ions (MCI) play an important role in those fields, such as atom and molecule physics, surface science, plasma physics, nuclear physics, and astrophysical.
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。
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.
CO分子是一种简单而又极其重要的分子,它在等离子体物理、燃烧科学以及天体物理学等领域都具有重要意义。
Co is a simple but important molecule. It plays an important role in many fields, such as plasma physics, combustion science and astrophysics.
超短光脉冲作为极短的时间探针在化学、生物学、医学、物理学、等离子体物理等各个领域已成为重要的研究工具。
The ultrashort pulse has become an important research tool in chemistry, biology, physics, plasma physics and other fields, in which the ultrashort pulse is used as a very short period of time probe.
如果你想为例如等离子体物理的学习打下坚实基础,那么本书以及朗道的流体力学和连续介质电动力学几乎就是你需要的全部。
This book together with the Fluid Mechanics and the Electrodynamics of Continuous Media titles of the same series are almost everything you need to get a solid ground in the study of plasma physics.
这一方法并非另一种药品,而是物理学的一个壮举:冷等离子体。
The solution is not another drug, but a feat of physics: cold plasma.
这是物理学家第一次明确地证实了梦寐以求的夸克胶子等离子体(或叫“夸克汤”)反应。
This is the first time that physicists were able to positively confirm the creation of the much sought after quark-gluon plasma, or ‘quark soup’.
记住一点,世界上所有等离子体,不是处于物质状态就是处于甘斯态,再没有其它形态,只要它还维持着物理实体和特征的话。
Remember one thing that everything in the world of plasma beyond the matter state only exists in a gans state, and no other state if it is going to having physical entity and identify.
本文综述了ECR放电的基本物理过程和实验研究概况,介绍了ECR等离子体在表面处理、镀膜和离子源等方面应用的最新结果。
This article reviews the basic physics of ECR discharge and experimental research, and describes new applications of ECR plasma in surface processing, plasma coating and ion source.
对电场漂移电子注入中的电子束物理、电子注入情况下托卡马克等离子体的平衡、电子注手器中的物理问题等进行了分析研究。
In this paper, electron beam physics, equilibrium of plasma in Tokamak under electron injection and physical problems involved in the electron injector were analytically studied.
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.
应用等离子体化学反应并结合物理手段较方便地获得了金属离子束,特别是解决了高挥发温度金属离子束的获得问题。
By means of plasma chemistry reaction combined with physics, metal ion beams, especially the beams of high volatility temperature, are obtained easily.
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.
利用等离子体截止波长理论,解释了低辐射玻璃红外反射的物理机制。
The physical mechanism about reflection of low-emission glass in near-infrared region is explained by using plasma cut-off frequency theory.
本文研究了由于欧姆电场与驱动电流的低杂波场相互作用造成的影响等离子体电导的两个物理机制。
By considering the interaction between the Ohmic field and the lower-hybrid current driven (LHCD) field, we find two mechanisms affecting the plasma conductivity.
本文研究了由于欧姆电场与驱动电流的低杂波场相互作用造成的影响等离子体电导的两个物理机制。
By considering the interaction between the Ohmic field and the lower-hybrid current driven (LHCD) field, we find two mechanisms affecting the plasma conductivity.
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