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General stability criterion of inviscid parallel flow

Fluid Dynamics 2010-06-10 v4 Astrophysics Mathematical Physics math.MP Plasma Physics

Abstract

A more restrictively general stability criterion of two-dimensional inviscid parallel flow is obtained analytically. First, a sufficient criterion for stability is found as either μ1<UUUs<0-\mu_1<\frac{U''}{U-U_s}<0 or 0<UUUs0<\frac{U''}{U-U_s} in the flow, where UsU_s is the velocity at inflection point, μ1\mu_1 is the eigenvalue of Poincar\'{e}'s problem. Second, this criterion is generalized to barotropic geophysical flows in β\beta plane. Based on the criteria, the flows are are divided into different categories of stable flows, which may simplify the further investigations. And the connections between present criteria and Arnol'd's nonlinear criteria are discussed. These results extend the former criteria obtained by Rayleigh, Tollmien and Fj{\o}rtoft and would intrigue future research on the mechanism of hydrodynamic instability.

Keywords

Cite

@article{arxiv.physics/0601043,
  title  = {General stability criterion of inviscid parallel flow},
  author = {Liang Sun},
  journal= {arXiv preprint arXiv:physics/0601043},
  year   = {2010}
}

Comments

Revtex4, 4 pages, 2 figures, extends the first part of physics/0512208, Accepted, to be continued