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飞秒脉冲参量影响金属表面热特性的研究* 被引量:11

The Thermal Character Analysis of the Femtosecond Laser Pulse Parameters′Effect on Metal Surface
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摘要 采用有限差分法对约化后的双温方程进行数值模拟·研究了飞秒激光与金属铜相互作用时,脉冲形状对烧蚀结果的影响.结果表明:脉冲能量确定时,脉冲形状对烧蚀结果影响不大;多脉冲作用时,脉冲重复频率只有在一定范围内(随材料属性改变),脉冲间的热累积效应才存在;对传导性好的金属材料,热累积效应不明显·并实验证实了上述结果· The Double Temperature Equation (DTE) was simulated with the finite difference method, which was formatted simply. The effect of the pulse shape on the ablation results had been studied when the femtosecond laser was irradiated on the copper surface. The simulation results show that if the laser pulse energy is not changed, the effect of the laser shape will be ignored. And if there are several laser pulses irradiated on the material, the thermal incubation effect would occur only when the repetition rate is in a scale (which is changed with the character of the materials). For the materials that have good conductivity, such as metals, the thermal incubation effect is not clear. Experiments show the same results.
作者 倪晓昌 王清月 梁建国
机构地区 天津大学精密仪器与光电子工程学院超快激光研究室光电信息技术科学教育部重点实验室
出处 《光子学报》 EI CAS CSCD 北大核心 2006年第1期1-4,共4页 Acta Photonica Sinica
基金 教育部科学技术研究重大项目(G10410) 国家自然科学基金(G60278003) 天津市科技发展计划科技攻关培育项目(G043103911) 高等学校博士学科点专项科研基金(G2003056021) 中国博士后科学基金资助
关键词 飞秒激光 有限差分 双温方程 热累积效应 Femtosecond laser ablation Finite-difference method Double-temperature equations Thermal incubation effect
分类号 TN249 [电子电信—物理电子学]
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参考文献11

二级参考文献61

  • 1倪晓昌,王清月.时空分布的超短激光脉冲烧蚀电介质材料时等离子体的产生[J].光子学报,2004,33(9):1035-1039. 被引量:10
  • 2[1]Kawata Y, Nakano M, Lee S C. Three-dimensional optical data storage using three-dimensional optics. Opt Eng, 2001, 40(10):2247~2254
  • 3[2]Glezer E N, Milosavlfevic M, Huang L, et al. Three-dimensional optical storage inside transparent materials. Optics Letters, 1996, 21(24):2023~20125
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  • 5[4]Fan Ch H,Longtin J P. Modeling optical breakdown in dielectrics during ultrafast laser processing. Applied Optics, 2001, 40(18): 3124~3131
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  • 7[6]Du D, Liu X, Korn G, et al.Laser-induced breakdown by impact ionization in SiO2 with pulse widths from 7 ns to 150 fs. Appl Phys Lett. 1997, 33(10): 1706~1716
  • 8[7]Zhao J X, Huettner B, Menschig A. Microablation with ultrashort laser pulses. Optics & Lasers Technology, 2001, 33: 487~491
  • 9[8]Noack J, Vogel A. Laser-Induced Plasma Formation in Water at Nanosecond to Femtosecond Time Scales: Calculatioon of Thresholds, Absorptioon Coefficeents, and Energy Density.IEEE J of Quan Elec,1999,35(8):1156~1167
  • 10Matthias Will, Stefan Nolte, Andreas Tuennermann. Threedimensional integrated optical device fabrication in glass by femtosecond laser processing. CLEO Technical Digest,2002,127:127 ~ 128.

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光子学报
2006年 第1期

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