ns 脉冲激光辐照下固体硅靶从弹性到熔化的动力学计算研究

IF 1.9 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Computation Pub Date : 2023-12-03 DOI:10.3390/computation11120240

Helen Papadaki, E. Kaselouris, M. Bakarezos, M. Tatarakis, N. Papadogiannis, V. Dimitriou

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引用次数: 0

摘要

采用瞬态、热或力学三维有限元模拟方法，对纳秒激光辐照固体硅靶的动力学行为进行了计算研究。目标的动态相位变化和表面声波在激光焦斑周围的产生和传播是由一个非常精细的均匀结构网格的有限元模型提供的，能够在短和长时空尺度上提供高分辨率的结果。考虑了熔点前Si材料性能的动态变化，模拟结果提供了辐照区响应的详细描述，并伴随着超声波的产生和传播的动力学。新的研究结果表明，由于Si的热膨胀系数低，穿透深度高，所产生的声SAW振幅较小，超声产生所需的时间和距离也比致密金属高。此外，在熔化状态下，高非线性热应力的发展导致不规则超声的产生和形成。了解纳秒激光和硅之间的相互作用对于推进与材料加工和表征相关的广泛技术至关重要。

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A Computational Study of Solid Si Target Dynamics under ns Pulsed Laser Irradiation from Elastic to Melting Regime

The dynamic behavior of solid Si targets irradiated by nanosecond laser pulses is computationally studied with transient, thermοmechanical three-dimensional finite element method simulations. The dynamic phase changes of the target and the generation and propagation of surface acoustic waves around the laser focal spot are provided by a finite element model of a very fine uniformly structured mesh, able to provide high-resolution results in short and long spatiotemporal scales. The dynamic changes in the Si material properties until the melting regime are considered, and the simulation results provide a detailed description of the irradiated area response, accompanied by the dynamics of the generation and propagation of ultrasonic waves. The new findings indicate that, due to the low thermal expansion coefficient and the high penetration depth of Si, the amplitude of the generated SAW is small, and the time and distance needed for the ultrasound to be generated is higher compared to dense metals. Additionally, in the melting regime, the development of high nonlinear thermal stresses leads to the generation and formation of an irregular ultrasound. Understanding the interaction between nanosecond lasers and Si is pivotal for advancing a wide range of technologies related to material processing and characterization.

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来源期刊

Computation Mathematics-Applied Mathematics

CiteScore

3.50

自引率

4.50%

发文量

201

审稿时长

8 weeks

期刊介绍： Computation a journal of computational science and engineering. Topics: computational biology, including, but not limited to: bioinformatics mathematical modeling, simulation and prediction of nucleic acid (DNA/RNA) and protein sequences, structure and functions mathematical modeling of pathways and genetic interactions neuroscience computation including neural modeling, brain theory and neural networks computational chemistry, including, but not limited to: new theories and methodology including their applications in molecular dynamics computation of electronic structure density functional theory designing and characterization of materials with computation method computation in engineering, including, but not limited to: new theories, methodology and the application of computational fluid dynamics (CFD) optimisation techniques and/or application of optimisation to multidisciplinary systems system identification and reduced order modelling of engineering systems parallel algorithms and high performance computing in engineering.