Rogue waves in baroclinic flows
- Authors: Zuo D.1,2, Gao Y.1, Feng Y.1, Xue L.1, Sun Y.1
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Affiliations:
- Ministry-of-Education Key Laboratory of Fluid Mechanics and National Laboratory for Computational Fluid Dynamics
- Department of Mathematics and Physics
- Issue: Vol 191, No 2 (2017)
- Pages: 725-737
- Section: Article
- URL: https://journals.rcsi.science/0040-5779/article/view/171224
- DOI: https://doi.org/10.1134/S0040577917050129
- ID: 171224
Cite item
Abstract
We investigate an AB system, which can be used to describe marginally unstable baroclinic wave packets in a geophysical fluid. Using the generalized Darboux transformation, we obtain higher-order rogue wave solutions and analyze rogue wave propagation and interaction. We obtain bright rogue waves with one and two peaks. For the wave packet amplitude and the mean-flow correction resulting from the self-rectification of the nonlinear wave, the positions and values of the wave crests and troughs are expressed in terms of a parameter describing the state of the basic flow, in terms of a parameter responsible for the interaction of the wave packet and the mean flow, and in terms of the group velocity. We show that the interaction of the wave packet and mean flow and also the group velocity affect the propagation and interaction of the amplitude of the wave packet and the self-rectification of the nonlinear wave.
Keywords
About the authors
Da-Wei Zuo
Ministry-of-Education Key Laboratory of Fluid Mechanics and National Laboratory for Computational Fluid Dynamics; Department of Mathematics and Physics
Author for correspondence.
Email: gaoyt163@163.com
China, Beijing; Shijiazhuang
Yi-Tian Gao
Ministry-of-Education Key Laboratory of Fluid Mechanics and National Laboratory for Computational Fluid Dynamics
Email: gaoyt163@163.com
China, Beijing
Yu-Jie Feng
Ministry-of-Education Key Laboratory of Fluid Mechanics and National Laboratory for Computational Fluid Dynamics
Email: gaoyt163@163.com
China, Beijing
Long Xue
Ministry-of-Education Key Laboratory of Fluid Mechanics and National Laboratory for Computational Fluid Dynamics
Email: gaoyt163@163.com
China, Beijing
Yu-Hao Sun
Ministry-of-Education Key Laboratory of Fluid Mechanics and National Laboratory for Computational Fluid Dynamics
Email: gaoyt163@163.com
China, Beijing
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