NUMERICAL SOLVER FOR AN ULTRAFAST LASER HEATING ON DIFFERENT 3-D MICROSCALE METALLIC FILMS

Kun-Chang Tseng; Jih-Run Tsai

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NUMERICAL SOLVER FOR AN ULTRAFAST LASER HEATING ON DIFFERENT 3-D MICROSCALE METALLIC FILMS

机译：不同3-D微尺度金属膜的超快激光加热的数值解

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Ultrafast laser heating on microscale metals has become an important process over the last several decades. The small physical domain and time scale mean conventional models cannot obtain accurate results. Thus, the dual-phase-lag method is studied and implemented in this article. Heat conductions in a finite slab with raised temperatures at both ends and ultrafast laser heating on a microscale gold film are simulated as verifications. Results show the dual-phase-lag model is more accurate by comparing with experiments. Four different metals with an ultrafast laser heating are then simulated to study the effects of the microscale thermal properties.

机译：在过去的几十年中，对微型金属进行超快激光加热已成为重要的过程。物理域和时间尺度较小，这意味着常规模型无法获得准确的结果。因此，本文研究并实现了双相滞后方法。模拟了在两端温度升高的有限平板中的热传导以及在微型金膜上的超快激光加热，以此作为验证。结果表明，与实验相比，双相滞后模型更为准确。然后用超快激光加热对四种不同的金属进行了模拟，以研究微尺度热性能的影响。

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《Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology》 |2008年第8期|共23页
作者
Kun-Chang Tseng; Jih-Run Tsai;
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原文格式 PDF
正文语种 eng
中图分类热力工程、热机;
关键词
microscale; conductions; properties;

机译：微观尺度;传导;特性;

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1. Numerical solver for an ultrafast laser heating on different 3-D microscale metallic films [J] . Tseng KC, Tsai JR Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2008,第7期

机译：在不同的3-D微尺度金属膜上进行超快激光加热的数值求解器
2. Numerical study of 3-D microscale heat transfer of a thin diamond slab under fix and moving laser heating [J] . Ehsan Khalili Dehkordi, Afrasiab Raisi, Behzad Ghasemi Thermal science . 2019,第5aPartaB期

机译：固定和移动激光加热下金刚石薄板3-D微尺度传热的数值研究
3. Generalized Thermo-Elastodynamics for Polycrystalline Metallic Thin Films in Response to Ultrafast Laser Heating [J] . Mao Xu, Suh C. Steve Journal of Thermophysics and Heat Transfer . 2019,第1期

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4. AN EFFICIENT NUMERICAL PROCEDURE FOR SOLVING A MICROSCALE HEAT TRANSPORT EQUATION DURING FEMTOSECOND LASER HEATING OF NANOSCALE METAL FILMS [C] . Illayathambi Kunadian, J. M. McDonough, Ravi Ranjan Kumar Advances in Electronic Packaging 2005 pt.A . 2005

机译：纳米薄膜飞秒激光加热过程中求解微观传热方程的高效数值方法。
5. A numerical method to solve the two-step parabolic heat transport equations in a microsphere subjected to an ultrafast laser pulse. [D] . Kaba, Ibrahima Khalil Fiman. 2004

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7. Correction to: Case study on the dynamics of ultrafast laser heating and ablation of gold thin films by ultrafast pump‑probe reflectometry and ellipsometry [O] . T. Pflug, J. Wang, M. Olbrich, 2018

机译：纠正：超快泵探针反射和椭圆形测量超快激光加热和金薄膜消融动力学的案例研究
8. Plasma Heating and Ultrafast Semiconductor Laser Modulation Through a Terahertz Heating Field [R] . Li, Jian-Zhong, Ning, C. Z. 2000

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NUMERICAL SOLVER FOR AN ULTRAFAST LASER HEATING ON DIFFERENT 3-D MICROSCALE METALLIC FILMS

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