激光与物质相互作用效应的研究一直受到人们的重视。
The study of interaction effects between laser and matter has attracted much attention ever and again.
热耦合系数在激光与物质相互作用中扮演着重要的角色。
Thermal coupling coefficient plays an important role in laser interaction with matter.
高信噪比在超短脉冲强激光与物质相互作用中有重要意义。
High signal-to-noise ratio have important meaning in the ultra-short laser interacting with material.
详细研究激光通过光学系统后的分布对深入研究激光与物质相互作用具有重要意义。
Detailed analysis of the laser beam distribution after passed optical system is significant to the deep study the interaction of laser beam and material.
自从激光器出现以来,激光与物质相互作用就逐渐成为物理学研究的前沿和热点问题。
Since the advent of laser, the interactions between laser and matter have become a hotspot and frontier of research in physics.
该激光器在激光与物质相互作用科学领域,特别是激光对物质作用与破坏机理的研究方面具有重要的应用价值。
This laser has great applied value in the scientific field of laser interacting with material, especially in the investigation of the mechanism of damage for the effect of laser to material.
在激光与物质相互作用研究领域中,能量耦合系数定义为材料吸收的激光能量与入射总激光能量之比值,它是表征激光辐照效应的主要参数。
In the domain of laser-matter interaction, energy coupling coefficient is defined as the ratio of absorbed laser energy to incident laser energy.
消荧光现象是激光与物质表面非线性相互作用的结果,这是一种普遍现象。
The fluorescence disappearing phenomenon (FDP) was used due to the nonlinear interaction between the laser and the matter, a universal phenomenon.
光子晶体,负折射率材料,超快、超慢现象,部分相干光学,激光物理,光与物质的相互作用等。
Photonic crystal negative refractive index materials superluminal and subluminal phenomena partially coherent light laser physics and interaction between light and matter.
擅长的领域包括:共轭聚合物,纳米晶,超快脉冲激光器,非线性光学,光与物质的相互作用,面向对象程序设计等。
His interests include conjugated polymers, nanocrystals, ultrafast pulsed lasers, nonlinear optics, light-matter interactions, and object-oriented programming.
所建立的测温方法对于研究激光与物质的相互作用有重要应用前景。
This work has great potential for investigating the interaction processes between laser and matter.
通过对条型DH激光器光与物质相互作用的分析,建立了稳态模型。
A static behaviour model has been built by analyzing the interaction of matter and light from the stripe-geometry DH laser.
本文提出,在超短激光脉冲与物质相互作用时可能存在所谓的“超短脉冲效应”,使物质对光的吸收延缓。
It is suggested that so-called "ultrashort pulse effect" might exist during the interaction of ultrashort laser pulse with matter, and delay the absorption of matter.
在超强超短激光脉冲与物质相互作用过程中,良好的激光脉冲对比度是一个非常重要的参数指标。
High laser pulse contrast ratio is one of the most important terms during the interaction of ultrashort laser pulse and substance.
在超强超短激光脉冲与物质相互作用过程中,良好的激光脉冲对比度是一个非常重要的参数指标。
High laser pulse contrast ratio is one of the most important terms during the interaction of ultrashort laser pulse and substance.
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