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This article is cited in 5 scientific papers (total in 5 papers)
Parametric Instability of a Many Point-vortex System in a Multi-layer Flow Under Linear Deformation
Eugene A. Ryzhovab, Konstantin V. Koshelcb a Institute of Applied Mathematics, FEB RAS, ul. Radio 7, Vladivostok, 690022, Russia
b Pacific Oceanological Institute, FEB RAS, ul. Baltiyskaya 43, Vladivostok, 690041, Russia
c Far Eastern Federal University, ul. Sukhanova 8, Vladivostok, 690950, Russia
Abstract:
The paper deals with a dynamical system governing the motion of many point vortices located in different layers of a multi-layer flow under external deformation. The deformation consists of generally independent shear and rotational components. First, we examine the dynamics of the system’s vorticity center. We demonstrate that the vorticity center of such a multi-vortex multi-layer system behaves just like the one of two point vortices interacting in a homogeneous deformation flow. Given nonstationary shear and rotational components oscillating with different magnitudes, the vorticity center may experience parametric instability leading to its unbounded growth. However, we then show that one can shift to a moving reference frame with the origin coinciding with the position of the vorticity center. In this new reference frame, the new vorticity center always stays at the origin of coordinates, and the equations governing the vortex trajectories look exactly the same as if the vorticity center had never moved in the original reference frame. Second, we studied the relative motion of two point vortices located in different layers of a two-layer flow under linear deformation. We analyze their regular and chaotic dynamics identifying parameters resulting in effective and extensive destabilization of the vortex trajectories.
Keywords:
point vortex, parametric instability, shear flow, chaotic dynamics.
Received: 06.12.2015 Accepted: 04.04.2016
Citation:
Eugene A. Ryzhov, Konstantin V. Koshel, “Parametric Instability of a Many Point-vortex System in a Multi-layer Flow Under Linear Deformation”, Regul. Chaotic Dyn., 21:3 (2016), 254–266
Linking options:
https://www.mathnet.ru/eng/rcd77 https://www.mathnet.ru/eng/rcd/v21/i3/p254
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Abstract page: | 224 | References: | 43 |
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