Laser Heating of the Core-Shell Nanowires

I. Astefanoaei, I. Dumitru, A. Stancu
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Abstract

Abstract The induced thermal stress in a heating process is an important parameter to be known and controlled in the magnetization process of core-shell nanowires. This paper analyses the stress produced by a laser heating source placed at one end of a core-shell type structure. The thermal field was computed with the non-Fourier heat transport equation using a finite element method (FEM) implemented in Comsol Multiphysics. The internal stresses are essentially due to thermal gradients and different expansion characteristics of core and shell materials. The stress values were computed using the thermo elastic formalism and are depending on the laser beam parameters (spot size, power etc.) and system characteristics (dimensions, thermal characteristics). Stresses in the GPa range were estimated and consequently we find that the magnetic state of the system can be influenced significantly. A shell material as the glass which is a good thermal insulator induces in the magnetic core, the smaller stresses and consequently the smaller magnetoelastic energy. These results lead to a better understanding of the switching process in the magnetic materials.
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核壳纳米线的激光加热
加热过程中产生的热应力是核壳纳米线磁化过程中需要了解和控制的重要参数。本文分析了在核壳型结构一端放置激光热源所产生的应力。利用Comsol Multiphysics软件实现的有限元方法,利用非傅立叶热传递方程计算了热场。内应力主要是由热梯度和芯壳材料的不同膨胀特性引起的。应力值使用热弹性公式计算,并取决于激光束参数(光斑大小,功率等)和系统特性(尺寸,热特性)。对GPa范围内的应力进行了估计,结果发现系统的磁态会受到显著影响。玻璃等壳层材料是一种良好的隔热材料,在磁芯中产生较小的应力,从而产生较小的磁弹性能。这些结果有助于更好地理解磁性材料中的开关过程。
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