Journal of the Japanese Association for Crystal Growth
Online ISSN : 2187-8366
Print ISSN : 0385-6275
ISSN-L : 0385-6275
Anisotropy Effect on the Flow-Induced Instability at the Solid-Liquid Interface of ^4He
Makio Uwaha
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1998 Volume 25 Issue 3 Pages A67-

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Abstract
At the interface of solid and superfluid ^4He a capillary wave (crystallization wave: CW) propagetes along the interface. Superfluid flow parallel to the interface causes softening of the CW and the interface becomes unstable. Effect of the crystal anisotropy on this flow-induced instability is Studied with a perturbation expansion.
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© 1998 The Japanese Association for Crystal Growth
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