NUMERICAL SIMULATION OF HEAT TRANSFER MECHANISMS DURING FEMTOSECOND LASER HEATING OF NANO-FILMS USING 3-D DUAL PHASE LAG MODEL

机译：使用3-D双相滞后模型对纳米级飞秒激光加热过程中传热机理的数值模拟

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In the present work we investigate femtosecond laser heating of nanoscale metal films irradiated by a pulsating laser in three dimensions using the Dual Phase Lag (DPL) model and consider laser heating at different locations on the metal film. A numerical solution based on an explicit finite-difference method has been employed to solve the DPL heat conduction equation. The stability criterion for selecting a time step size is obtained using von Neumann eigenmode analysis, and grid function convergence tests have been performed. The energy absorption rate, which is used to model femtosecond laser heating, has been modified to accommodate for the three-dimensional laser heating. We compare our results with classical diffusion and hyperbolic heat conduction models and demonstrate significant differences among these three approaches.The present research enables us to study ultrafast laser heating mechanisms of nano-films in 3D.

机译：在目前的工作中，我们使用双相滞后（DPL）模型研究了由脉冲激光在三个维度上对纳米级金属膜进行的飞秒激光加热，并考虑了在金属膜上不同位置的激光加热。已经采用基于显式有限差分法的数值解来求解DPL导热方程。使用冯·诺依曼本征模分析获得了选择时间步长的稳定性判据，并进行了网格函数收敛测试。已对用于模拟飞秒激光加热的能量吸收率进行了修改，以适应三维激光加热。我们将我们的结果与经典扩散模型和双曲线热传导模型进行了比较，并证明了这三种方法之间的显着差异。本研究使我们能够研究3D纳米膜的超快激光加热机理。

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《American Society of Mechanical Engineers(ASME) Heat Transfer/Fluids Engineering Summer Conference 2004(HT/FED 2004) vol.4; 20040711-15; Charlotte,NC(US)》|2004年|P.661-667|共7页
会议地点 CharlotteNC(US)
作者
Illayathambi Kunadian; J. M. McDonough; K. A. Tagavi;
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Department of Mechanical Engineering University of Kentucky Lexington, Kentucky 40506-0503;

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原文格式 PDF
正文语种 eng
中图分类工程流体力学;
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NUMERICAL SIMULATION OF HEAT TRANSFER MECHANISMS DURING FEMTOSECOND LASER HEATING OF NANO-FILMS USING 3-D DUAL PHASE LAG MODEL

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