Combined Effects of Rotating Magnetic Field and Rotating System on the Thermocapillary Instability in the Floating Zone Crystal Growth Process

Nancy Ma; John S. Walker; Laurent Martin Witkowski

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Combined Effects of Rotating Magnetic Field and Rotating System on the Thermocapillary Instability in the Floating Zone Crystal Growth Process

机译：旋转磁场和旋转系统对浮区晶体生长过程中热毛细管不稳定性的综合影响

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摘要

This paper presents a linear stability analysis for the thermocapillary convection in a liquid bridge bounded by two planar liquid-solid interfaces at the same temperature and by a cylindrical free surface with an axisymmetric heat input. The two solid boundaries are rotated at the same angular velocity in one azimuthal direction, and a rotating magnetic field is applied in the opposite azimuthal direction. The critical values of the Reynolds number for the thermocapillary convection and the critical-mode frequencies are presented as functions of the magnetic Taylor number for the rotating magnetic field and of the Reynolds number for the angular velocity of the solid boundaries.

机译：本文对液桥中的热毛细管对流进行了线性稳定性分析，该桥由两个在相同温度下的平面液-固界面和一个带有轴对称热输入的圆柱形自由表面所界定。两个固体边界在一个方位角方向上以相同的角速度旋转，并且在相反的方位角方向上施加旋转磁场。热毛细对流的雷诺数和临界模式频率的临界值表示为旋转磁场的磁泰勒数和固体边界角速度的雷诺数的函数。

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来源
《Journal of Heat Transfer》 |2004年第2期|p.230-235|共6页
作者
Nancy Ma; John S. Walker; Laurent Martin Witkowski;
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作者单位

Department of Mechanical and Aerospace Engineering, Campus Box 7910, North Carolina State University, Raleigh, NC 27695;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类热力工程、热机;
关键词
crystal growth; heat transfer; magnetohydrodynamics; stability; thermocapillary;

机译：晶体生长传热磁流体动力学稳定性热毛细管;

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专利

1. Effects of a rotating magnetic field on the thermocapillary instability in the floating zone process [J] . J.S. Walker, L.Martin Witkowski, B.C. Houchens Journal of Crystal Growth . 2003,第1a3期

机译：旋转磁场对浮区过程中热毛细管不稳定性的影响
2. Effects of rotating magnetic fields on thermocapillary flow in a floating half-zone [J] . Liping Yao, Zhong Zeng, Xiaohong Li, Journal of Crystal Growth . 2011,第1期

机译：旋转磁场对浮动半区中热毛细管流动的影响
3. Influence of rotating magnetic field strength on three-dimensional thermocapillary flow in a floating half-zone model [J] . Liping Yao, Zhong Zeng, Yi Zhang, Heat and mass transfer . 2012,第12期

机译：浮动半区模型中旋转磁场强度对三维热毛细流动的影响
4. EFFECTS OF AN AXIAL MAGNETIC FIELD ON THE UNSTEADY THERMOCAPILLARY CONVECTION IN FLOATING-ZONE SEMICONDUCTOR CRYSTAL GROWTH [C] . T.E. Morthland, rnJ.S. Walker Proceedings of the 1997 ASME Fluids Engineering Division summer meeting (FEDSM'97) . 1997

机译：轴向磁场对浮动区半导体晶体生长中非稳态热毛细对流的影响
5. Liquid -encapsulated Czochralski growth of compound semiconductor crystals with steady and rotating magnetic fields. [D] . Yang, Mei. 2006

机译：具有稳定和旋转磁场的化合物半导体晶体的液体封装Czochralski生长。
6. Maximally rotating supermassive stars at the onset of collapse: the perturbative effects of gas pressure magnetic fields dark matter and dark energy [O] . Satya P. Butler, Alicia R. Lima, Thomas W. Baumgarte, -1

机译：坍塌开始时最大旋转的超大质量恒星：气压磁场暗物质和暗能量的微扰效应
7. Morphology of Spiral Patterns in Nematic Liquid Crystals Under Rotating Magnetic Fields(3) Chaos and nonlinear dynamics in dissipative systems(including BEC and pattern formations), Chaos and Nonlinear Dynamics in Quantum-Mechanical and Macroscopic Systems) [O] . Fukushima K., Kosaka C., Nakamura K. 2005

机译：旋转磁场作用下向列液晶的螺旋形形态（3）耗散系统（包括BEC和图案形成）中的混沌和非线性动力学，量子力学和宏观系统中的混沌和非线性动力学
8. Stability and instability of thermocapillary convection in models of the float-zone crystal-growth process [R] . Neitzel, G. P. 1993

机译：浮区晶体生长过程模型中热毛细对流的稳定性和不稳定性

Combined Effects of Rotating Magnetic Field and Rotating System on the Thermocapillary Instability in the Floating Zone Crystal Growth Process

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