激光束使金原子产生爆发出等离子体激元。
The laser light caused the gold atoms to generate a burst of plasmons.
冷等离子,是由氧气和氦气混合集中成的光束,先前主要在医疗上用来清除伤口的细菌。
Cold plasma, a combination of oxygen and helium gas concentrated into a lightening-like beam, has previously been used by medics to clean bacteria off wounds.
在以前,量子算法也被提出过,但只适用于一些奇特的系统,这些系统使用了悬浮于强磁体的激光束或离子。
Quantum algorithms have been processed before, but only in exotic systems using lasers or ions suspended with strong magnets.
为保证安全,死星上配有10,000门涡轮激光排炮与2,600门离子炮以及700多个牵引光束发射器。
To protect the Death Star, it was equipped with 10,000 turbo-laser batteries, 2,600 ion canons, and over 700 tractor beam projectors.
激光束、电子束、离子束三种高能束流技术对材料表面改性是通过改变材料表面的成分或结构实现的。
Surface modification of materials by means of high-energy laser beam, electron beam and ion beam technology are realized through changing composition and structure of the material surface.
在脉冲激光束和脉冲离子束辐照条件下,针对不同脉冲作用时间和能量密度建立传热模型。
The heat conduction equations were developed for the pulsed laser beams and pulsed ion beams with the various pulse duration and energy density.
通过实验研究分析了激光束与等离子束复合角度对熔积层精度的影响规律。
The influence of the Angle between laser beam and plasma arc beam on the precision of a deposited layer was analyzed through experimental studies.
针对等离子体对激光的导引和离焦现象,以及应用激光操纵粒子的空心环状光束产生进行了模型化分析和讨论。
Using different refractive index distributions, the phenomena of plasma waveguide and the application of a ring shaped beam in the manipulation of particles are discussed, separately.
激光焊接过程中产生的等离子体对激光束有屏蔽作用,降低了焊接熔深,甚至出现缺陷。
Plasma produced in laser welding process has shielding effect to the laser beam and decreases the melting depth on even result in the defect.
用高能激光束和电子束轰击实验材料,模拟聚变堆面对等离子体材料在等离子体破裂时的工作状态,考察了4种掺杂石墨材料在热冲击下的热腐蚀规律。
The thermal shock behavior of 4 kinds of impurity doped graphites was investigated under a simulated plasma disruption condition using high-energy laser and electron beam.
采用自行研制的高灵敏度光束偏转测试系统,对脉冲激光烧蚀水下金属产生的等离子体冲击波和空泡效应进行了实验研究。
Laser-induced plasma shock wave and cavitation bubble by pulsed laser ablation of a metal in water are investigated by a high-sensitive optical beam deflection technique.
基于矢量衍射理论数值研究了利用高数值孔径聚焦的高偏振级次轴对称偏振光束实现表面等离子体干涉。
We numerically study the surface plasmon interference formed by tightly focused higher polarization order axially symmetric polarized beams (ASPBs) based on the vectorial diffraction theory.
基于矢量衍射理论数值研究了利用高数值孔径聚焦的高偏振级次轴对称偏振光束实现表面等离子体干涉。
We numerically study the surface plasmon interference formed by tightly focused higher polarization order axially symmetric polarized beams (ASPBs) based on the vectorial diffraction theory.
应用推荐