期刊论文

Influence of Thermophysical Parameters by Femtosecond Laser Ablation of Metals: Molecular Dynamics Simulation

Wang, X.-L.

中文

光子学报

1004-4213

2009

38

12

3052-3056

2006CB806006:国家重点基础研究发展计划（973计划）

本校为第一且通讯机构

利用结合双温模型的分子动力学模拟方法,研究了飞秒激光与金属相互作用的烧蚀机制.采用中心波长为800 nm,能量密度从0.043 J·cm~(-2)到0.40 J·cm~(-2)不等,脉宽分别为70 fs和200 fs的激光烧蚀金属镍和铝材料.靶材的温度、原子位型以及内部压力随时间的演化展示了材料热物性参量特性和激光参量对烧蚀结果的影响.结果显示材料电子热传导率对飞秒脉宽激光下的影响仍然较大;对比铝和镍的结果可知,铝的电子晶格耦合系数比镍的小,故电子晶格间的温度梯度持续时间较长;铝的电子热传导系数比镍的大,所以材料上下表面电子温度耦合的时间缩短.铝薄膜表面在能量密度为0.40 J·cm~(-2)激光烧蚀下呈现纳米尺...

The mechanisms of femtosecond (fs) laser ablating nickel (Ni) and aluminum (Al) are investigated by molecular dynamics simulations combined with two-temperature model. The central wavelength of 800 nm, pulse durations of 70 fs or 200 fs and energy fluence from 0.043 J · cm-2 to 0.40 J · cm-2 are considered in the simulation respectively. The evolutions of temperature, atomic configuration and pressure distribution in the target materials reveal the influences of thermophysical parameters and laser parameters on ablation process. The results s...