L. G. Kurakin scite author profile

L. G. Kurakin

4Publications

131Citation Statements Received

29Citation Statements Given

How they've been cited

129

126

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Affiliations

Southern Federal University, Vladikavkaz Institute of Management, Institute of Water Problems

Publications

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The stability of stationary rotation of a regular vortex polygon

Kurakin

Yudovich

2002

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This paper is devoted to the Lord Kelvin's (1878) problem on stability of the stationary rotation of the system of n equal vortices located in the vertices of a regular n-gon. During the last decades this problem again became actual in connection with the investigation of point vortices in liquid helium and electron columns in plasma physics. This regime is described by the explicit solution of the Kirchhoff equations. The corresponding eigenvalue problem for the linearization matrix can be also decided explicitly. This was used in the works of Thomson (1883) and Havelock (1931) to obtain exhaustive results on the linear stability. Kurakin (1994) proved that for n/=8 it is unstable. We also present the general theory of stationary motions of a dynamical system with symmetry group. The definitions of stability and instability are necessary to modify in the specific case of stationary regimes. We do not assume that the system is conservative. Thus, the results can be applied not only to various stationary regimes of an ideal fluid flows but, for instance, also to motions of viscous fluids. (c) 2002 American Institute of Physics.

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On nonlinear stability of the regular vortex systems on a sphere

Kurakin¹

2004

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We present the necessary and sufficient conditions for stability and instability of the stationary rotation of a system of n identical point vortices located at the same latitude on a sphere at vertices of a regular n-gon. We also examine stability of the equilibrium configuration of identical point vortices, situated at the vertices of a regular polyhedra. It is proved that vortex tetrahedron, octahedron, and icosahedron are stable, while vortex cube and dodecahedron are unstable.

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Nonlinear stability analysis of a regular vortex pentagon outside a circle

Kurakin

Ostrovskaya

2012

Regul. Chaot. Dyn.

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The stability of the steady rotation of a system of three equidistant vortices outside a circle

Kurakin¹

2011

Journal of Applied Mathematics and Mechanics

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L. G. Kurakin

The stability of stationary rotation of a regular vortex polygon

On nonlinear stability of the regular vortex systems on a sphere

Nonlinear stability analysis of a regular vortex pentagon outside a circle

The stability of the steady rotation of a system of three equidistant vortices outside a circle

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