1) Ultrashort laser ablation
超短激光蚀除
2) laser ablation
激光蚀除
1.
The basic principle of molecular dynamics simulation is described, and then a review of the recent oversea as well as internal research on the mechanisms of laser ablation of metals, semi- conductor as well as organic solids etc·and the involved key techniques are summarized in de- tail·Some directions of further research on molecular dynamics simulation of laser ablation are indicated
介绍了分子动力学模拟的基本原理,并对国内外采用其研究金属、半导体、有机体等材料的激光蚀除机制的现状以及所涉及的关键技术进行了详尽的综述,最后指出了分子动力学模拟激光蚀除的进一步研究方向。
3) Ultrashort laser
超短激光
1.
The ablation process of semiconductor with ultrashort laser was simulated by the finite-difference method,the temperature field and carder density field of ultrashort laser ablation on semiconductor were showed.
采用有限差分法对超短脉冲激光烧蚀半导体材料的过程进行了数值模拟,得到了超短激光辐照下半导体表面温度和载流子浓度的分布情况,讨论了激光参数对半导体表面热效应和载流子浓度分布的影响。
4) ultra short laser field
超短激光场
5) ultra short high intensity laser
超短强激光
1.
A new experiment was carried out for studying the interaction of high intensity laser with microcapillaries by using an ultra short high intensity laser with 45 fs pulse width.
成功地观测了超短强激光作用下不锈钢毛细管和玻璃毛细管的X射线谱,获得了重复频率为10Hz具有较好定向性的X射线源。
6) ultrashort and ultrahigh laser
超短超强激光
1.
Monte Carlo simulation of Kα source produced by ultrashort and ultrahigh laser interaction with Cu target;
超短超强激光与铜靶相互作用产生Kα源的蒙特卡罗模拟
补充资料:超除
1.犹超授。
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