给出脉冲激光作用块状靶材的烧蚀模型。
The ablating model of a bulk target irradiated by a pulse laser is set up.
本文采取旋波近似,分析了序列脉冲激光作用下的双能级系统。
Two-level systems under the action of a laser pulse train are studied by rotating-wave approximation.
计算了薄膜在高功率脉冲激光作用下截面温度场和应力场分布。
The sectional temperature and stress diStribution of optical films under high power PUlse laser irradiation are calculated.
计算了薄膜在高功率脉冲激光作用下截面温度场和应力分布场。
The sectional temperature and stress distribution of optical films under high power pulse laser irradiation are calculated.
本文建立了一个光学薄膜在长脉冲激光作用下的模型来计算激光作用下的温度场。
A numerical model is developed for the calculation of transient temperature field of thin film coating induced by a long-pulsed high power laser beam.
第二章推导出了原子与拉曼脉冲激光作用后的能态分布矩阵以及原子在重力场中的传输矩阵。
We start from the schrodinger equation, researching on the interaction process of cold atoms system with Raman laser pulse, and then educe the density matrix equation.
本文采用自行研制的传感器研究了在不同能量的脉冲激光作用下,水中靶材所受的力学效应。
A novel optical sensor is developed to investigate the mechanical effects during pulsed laser ablation of metals in water at different pulse energies.
在双曲双步输运模型基础上建立数值模型,针对超短脉冲激光作用下硅薄膜的微观能量输运过程展开理论研究。
A numerical model which is based on the hyperbolic two-step model is developed to investigate the microscopic energy transport in silicon thin films during ultra-fast laser heating.
应用高能量单脉冲激光作用在锆钛酸铅(PZT)压电薄膜上,研究脉冲激光的热冲击对PZT薄膜性能产生的影响。
The high energy pulse laser was used to radiate lead zirconate titanate (PZT) piezoelectric films. The effect of the laser thermal shock on the properties of the films was investigated.
实验发现,在脉冲激光作用下,水中靶材依次受到激光烧蚀压力和射流冲击力作用,且射流冲击力是造成靶材破坏的主要原因。
Furthermore, the experimental results show that underwater targets are impacted in turn by laser-generated ablation force and high-speed liquid-jet impulse induced by bubble collapse.
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。
The ultrashort pulse laser plasma source works in ultrashort time, with high energy density and is able to be tuned, controlled easily.
通过严格求解麦克斯韦—布洛赫方程,研究了超短脉冲激光与硝基苯胺分子材料的非共振相互作用。
We theoretically investigate the non-resonant interaction between ultrashort pulse laser and para-nitroaniline molecule medium by solving the full Maxwell-Bloch equations without approximation.
该实验方法说明,利用脉冲激光与金属掺杂靶相互作用沉积梯度金属薄膜是可行的。
This experimental method indicates that it is feasible to deposit functional gradient metal thin films by means of the interaction between pulsed laser and metal doping target.
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.
采用YAG脉冲激光的四倍频输出与两平行平面极板间空气相互作用产生等离子体。
Plasma was instantly produced after the interaction between the air and the YAG laser pulse quadruple output in the interspace of parallel-plate electrodes in the vacuum chamber.
利用数字相机作为成像设备,脉冲激光作为光源,对这一方式进行了对比研究,证明了距离选通的作用。
We try to take a parallel research to this model by applying the digital camera as the imaging equipment and the pulsed laser as the light source.
超短脉冲激光光源因其在物理、化学以及生命科学研究中的重要作用,一直是一个前沿性的课题。
As an important tool in physics, chemistry and life science studies, the ultrashort pulsed laser sources are on the edging of optical technology.
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.
利用“流体动力学”模型分析了超短脉冲激光与团簇的相互作用机制。
The interaction of atomic clusters with high intensity lasers has been investigated based on the hydrodynamic model developed by Ditmire et al .
利用“流体动力学”模型分析了超短脉冲激光与团簇的相互作用机制。
The interaction of atomic clusters with high intensity lasers has been investigated based on the hydrodynamic model developed by Ditmire et al .
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