On the Hamiltonian structure and three-dimensional instabilities of rotating liquid bridges

Creators: Kruse, Hans Peter; Mahalov, Alex; Marsden, Jerrold E.

Abstract

We consider a rotating inviscid liquid drop trapped between two parallel plates. The liquid–air interface is a free surface and the boundaries of the wetted regions in the plates are also free. We assume that the two contact angles at the plates are equal. We present drop shapes that generalize the catenoids, nodoids and unduloids in the presence of rotation. We describe profile curves of these drops and investigate their stability to three-dimensional perturbations. The instabilities are associated with degeneracies of eigenvalues of the corresponding Hamiltonian linear stability problem. We observe that these instabilities are present even in the case when the analogue of the Rayleigh criterion for two-dimensional stability is satisfied

Additional Information

© IOP Publishing. Received 2 February 1998 , accepted for publication 9 February 1998. This version: January 27, 1998. We are grateful to Edgar Knobloch and Jürgen Scheurle for helpful comments and their interest. The research of HPK was partially supported by the DFG under the contract Sch 233/3-2 as well as a former Feodor Lynen- Fellowship of the Alexander von Humboldt-Foundation during a stay at the Fields Institute and the Department of Mathematics, University of California, Berkeley. That of AM was partially supported by AFOSR grant F49620-93-1-0172 and the ASU Center for Environmental Fluid Dynamics and that of JEM was partially supported by the Department of Energy and the California Institute of Technology.

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