Journal
REGULAR & CHAOTIC DYNAMICS
Volume 18, Issue 1-2, Pages 33-62Publisher
PLEIADES PUBLISHING INC
DOI: 10.1134/S1560354713010036
Keywords
ideal fluid; vortex ring; leapfrogging motion of vortex rings; bifurcation complex; periodic solution; integrability; chaotic dynamics
Categories
Funding
- RFBR [11-01-91056-NTsNI_a]
- Target Programme Development of Scientific Potential of Higher Schools [1.2953.2011]
- Federal Target Programme Scientific and Scientific-Pedagogical Personnel of Innovative Russia [14.B37.21.1935]
- grant of leading scientific schools [NSh-2519.2012.1]
- Russian Federation for the Support of Young Russian Scientists-Candidates of Science [MK-8428.2010.1]
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We consider the problem of motion of axisymmetric vortex rings in an ideal incompressible fluid. Using the topological approach, we present a method for complete qualitative analysis of the dynamics of a system of two vortex rings. In particular, we completely solve the problem of describing the conditions for the onset of leapfrogging motion of vortex rings. In addition, for the system of two vortex rings we find new families of motions where the relative distances remain finite (we call them pseudo-leapfrogging). We also find solutions for the problem of three vortex rings, which describe both the regular and chaotic leapfrogging motion of vortex rings.
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