@inproceedings{cebeca30d5604b7486e41a8c45da5788,
title = "Effect of rotating magetic field on three-dimensional instabilities of thermocapillary convection under microgravity",
abstract = "Thermocapillary flow dominates melt convection in floating zone crystal growth under microgravity, and a steady and axisymmetrical thermocapillary flow is helpful for the high quality crystal growth, however thermocap-illary flow tends to become non-axisymmetrical and unsteady with increasing grown crystal size. To investigate the convection control by rotating magnetic field (RMF) in semiconductor crystal growth, thermocapillary flow in a three dimensional floating half zone model is simulated. The result indicates the three-dimensional unstable thermocapillary flow returns to a steady and axisymmetric convection in a proper RMF under microgravity.",
keywords = "convection control, microgravity, oscillatory thermocapillary flow, rotating magnetic field",
author = "Yao, {L. P.} and Z. Zeng and Chen, {J. Q.} and Chen, {C. B.} and L. Li and H. Mizuseki and Y. Kawazoe",
year = "2011",
doi = "10.1063/1.3651850",
language = "English",
isbn = "9780735409361",
series = "AIP Conference Proceedings",
pages = "114--116",
booktitle = "Recent Progresses in Fluid Dynamics Research - Proceedings of the Sixth International Conference on Fluid Mechanics, ICFM VI",
note = "Proceedings of the 6th International Conference on Fluid Mechanics: Recent Progresses in Fluid Dynamics Research, ICFM VI ; Conference date: 30-06-2011 Through 03-07-2011",
}