They were divided into ordinary plasma cutting quality, fine plasma and kind of laser plasma.
他们的切割质量又分为普通等离子,精细等离子和类激光等离子。
Laser plasma interaction is a typical nonlinear problem and one of the key issues in laser fusion.
激光等离子体相互作用是一个典型的非线性问题,是激光聚变研究的核心问题之一。
In comparison with laser plasma soft X-ray sources using metal target, the light source is debris-free.
与金属靶激光等离子体软x射线源相比,此光源无碎屑。
The technical problem to be solved is that a stable liquid target laser plasma light source is provided.
要解决的技术问题是:提供一种稳定的液体靶激光等离子体光源。
In this paper, laser plasma acoustic waves production mechanism, property and application were introduced.
本文简要介绍了激光等离子体声波的产生机理、特性及应用前景。
A method detecting and measuring the intensity of spectrum from laser plasma soft X-ray source is presented.
提出了一种新的探测和测量激光等离子体软X射线源光谱强度的方法。
The excitation temperature of laser plasma was measured to explain the mechanism that the line intensities increase.
为解释谱线强度增强的机理,测量了等离子体的激发温度。
The results have indicated that the bubble jetting is as important as the laser plasma shock wave, and more important sometimes.
结果表明,空泡射流的力学效应与等离子体冲击波的一样重要,有时甚至更明显。
Laser plasma soft X_ray source is a kind of pulsed light source. There are several diagnostic methods for this kind of light source.
激光等离子体软X射线光源是脉冲式光源,对这类光源的光谱诊断有几种方法。
The ultrashort pulse laser plasma source works in ultrashort time, with high energy density and is able to be tuned, controlled easily.
超短脉冲激光等离子体源作用时间超短,能量密度高,可调谐,易于控制。
Plasma power supply, according to cutting section vertical degree, the cutting precision, plasma, fine common points of plasma, laser plasma.
等离子电源,按切割断面垂直度、切割精度,分普通等离子、精细等离子、类激光等离子。
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.
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。
A method to determine the electron temperature and density from the time resolved spectra of hydrogen atoms left in a pulsed laser plasma is described.
本文讨论了一种利用残留在激光器中杂质氢原子的时间分辨光谱,来确定脉冲激光等离子体电子温度和电子密度的方法。
In this paper accurate solutions for the single frequency heating conditions have been obtained based on equations derived for laser plasma electron-ion coupling.
本文在导出激光等离子体电子、离子耦合方程的基础上求得了单频加热无穷行列特征矩阵的准确解;
A gas flow model with laser plasma as heat source was developed based on axial symmetric Euler equations in the laser propulsion rocket engine absorption chamber.
以轴对称非定常欧拉方程为基础,建立了激光推进火箭发动机吸收室内纯气相单组分、以激光等离子体为内热源的流场模型。
The absolute intensity of the soft X ray spectrum from laser plasma has bean measured. Finally, the measured errors of spectrum intensity are analysed and estimated.
并用此方法获得了激光等离子体发射软x光谱的绝对强度测量值。
We have discussed the spontaneous magnetic field in a spherically symmetric laser plasma. The expression for the spontaneous magnetic field due to TE wave is derived.
本文讨论了球对称激光等离子体中的自生磁场,导出了由TE波引起的自生磁场的表示式。
Based on the thermal guide theory, we analyzed the melting progress with the cylindroid model in the optical fiber LPHVD (laser plasma hybrid vapour deposition) process.
利用热传导理论,结合LPHVD工艺,在圆柱体模型基础上分析了光纤工艺中激光熔融过程。
The wave function of free electron in a strong laser plasma is obtained by solving exactly the Dirac equation in a curved space-time with optical metric for the laser plasma.
借助激光等离子体的光学度规,严格求解了弯曲时空中的狄喇克方程,得到了强激光等离子体中的自由电子波函数。
Without going into detail, it should be mentioned that the treatment of laser plasma interaction resulted in the same properties as the following described hydrodynamic calculations.
不用考虑细节,应当指出的是,处理激光等离子体相互作用可以产生与下面描述的流体动力学计算相同的特性。
These researches provide a clearer physical understanding for the strong turbulence in laser plasma by numerical simulation, and make the plasmon collapse process more comprehending.
这些研究为激光等离子体中强湍动提供了更为清晰的物理图象,以便更加深刻地理解等离激元坍塌过程。
The influences of plasma parameters such as energy, ignition location and shape on drag performance are reviewed. At present, laser plasma technology can reduce the wave drag by 70%.
讨论了等离子体能量、点火位置和形状等参数对减阻性能的影响,目前利用激光等离子体技术可以减小70%的波阻。
For the typical physics states of the laser plasma, it is difficult to obtain the plasma parameters directly. Spectroscopic diagnostics play an important role in the field of plasma diagnostics.
激光等离子体所特有的极端物理环境使我们很难用直接的手段获取等离子体状态参数,长期以来,光谱诊断在激光等离子体诊断领域发挥着重要作用。
The main research issues for laser plasma interaction are the propagation and absorption of the laser in plasma, parameter instabilities, the generation mechanism of super-thermal particles, etc.
它主要研究激光在等离子体中的传播、吸收,各种参量不稳定性、超热粒子的产生机制等。
Generation mechanism of plasma wave is introduced, as well as the trapping and acceleration of electrons in the plasma wave. Some limits on laser plasma accelerators are discussed associated with...
介绍了等离子体波的产生机理及等离子体波中电子的俘获和加速,并讨论了存在于激光等离子体加速器中的一些限制和今后发展前景。
During 30 years of the laser fusion debate, one significant potential hurdle to the process has been the "plasma" that the lasers will create in the hohlraum.
在关于激光聚变30年的争论中,一个重要的潜在障碍就是激光在靶腔内产生的等离子体。
During 30 years of the laser fusion debate, one significant potential hurdle to the process has been the "plasma" that the lasers will create in the hohlraum.
在关于激光聚变30年的争论中,一个重要的潜在障碍就是激光在靶腔内产生的等离子体。
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