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Published July 11, 1986 | public
Journal Article

Nonlinear Stability Analysis of Stratified Fluid Equilibria

Abstract

Nonlinear stability is analysed for stationary solutions of incompressible inviscid stratified fluid flow in two and three dimensions. Both the Euler equations and their Boussinesq approximations are treated. The techniques used were initiated by Arnold around 1965. These techniques combine energy methods, conserved quantities and convexity estimates. The resulting nonlinear stability criteria involve standard quantities, such as the Richardson number, but they differ from the linearized stability criteria. For example, the full three-dimensional problem has nonlinearly stable stationary solutions with Richardson number greater than unity, provided the gradients of the variations in density satisfy explicitly given bounds. Specific examples and the associated Hamiltonian structures for the problems are given.

Additional Information

© 1985 Royal Society of London. Communicated by T. B. Benjamin, F.R.S. - Received 7 January 1985. Published 11 July 1986. H.D.I.A. was supported by U.S. Department of Energy and Office of Naval Research, Code 422 PD; D.D.H was supported by D.O.E. contract no. W-7405-Eng-36 and Office of Basic Energy Sciences, Department of Applied Mathematics; J. E. M. was partly supported by D.O.E. contract no. AT03-82ER12097; T.S.R. was supported by an N.S.F. postdoctoral fellowship and an A. P. Sloan Foundation Fellowship while at the University of California, Berkeley.

Additional details

Created:
August 19, 2023
Modified:
October 20, 2023