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Vortex cluster arising from an axisymmetric inertial wave attractor Full article

Journal Journal of Fluid Mechanics
ISSN: 0022-1120
Output data Year: 2021, Volume: 926, Article number : A12, Pages count : 16 DOI: 10.1017/jfm.2021.703
Tags internal waves; waves in rotating fluids
Authors Boury S. 1,2 , Sibgatullin I. 4,5 , Ermanyuk E. 6 , Shmakova N. 6 , Odier P. 2 , Joubaud S. 2,3 , Maas L.R.M. 7 , Dauxois T. 2
Affiliations
1 Courant Institute of Mathematical Sciences, New York University, New York
2 The University of Lyon
3 Institut Universitaire de France
4 P.P. Shirshov Institute of Oceanology
5 Ivannikov Institute for System Programming
6 Lavrentyev Institute of Hydrodynamics
7 Institute for Marine and Atmospheric Research, Utrecht University

Funding (1)

1 Российский научный фонд 20-11-20189

Abstract: We present an experimental and numerical study of the nonlinear dynamics of an inertial wave attractor in an axisymmetric geometrical setting. The rotating ring-shaped fluid domain is delimited by two vertical coaxial cylinders, a conical bottom and a horizontal wave generator at the top: the vertical cross-section is a trapezium, while the horizontal cross-section is a ring. Forcing is introduced via axisymmetric low-amplitude volume-conserving oscillatory motion of the upper lid. The experiment shows an important result: at sufficiently strong forcing and long time scale, a saturated fully nonlinear regime develops as a consequence of an energy transfer draining energy towards a slow two-dimensional manifold represented by a regular polygonal system of axially oriented cyclonic vortices undergoing a slow prograde motion around the inner cylinder. We explore the long-term nonlinear behaviour of the system by performing a series of numerical simulations for a set of fixed forcing amplitudes. This study shows a rich variety of dynamical regimes, including a linear behaviour, a triadic resonance instability, a progressive frequency enrichment reminiscent of weak inertial wave turbulence and the generation of a slow manifold in the form of a polygonal vortex cluster confirming the experimental observation. This vortex cluster is discussed in detail, and we show that it stems from the summation and merging of wave-like components of the vorticity field. The nature of these wave components, the possibility of their detection under general conditions and the ultimate fate of the vortex clusters at even longer time scale remain to be explored.
Cite: Boury S. , Sibgatullin I. , Ermanyuk E. , Shmakova N. , Odier P. , Joubaud S. , Maas L.R.M. , Dauxois T.
Vortex cluster arising from an axisymmetric inertial wave attractor
Journal of Fluid Mechanics. 2021. V.926. A12 :1-16. DOI: 10.1017/jfm.2021.703 WOS Scopus РИНЦ OpenAlex
Identifiers:
Web of science: WOS:000692839800001
Scopus: 2-s2.0-85114521058
Elibrary: 47024481
OpenAlex: W3198744316
Citing:
DB Citing
Scopus 26
OpenAlex 29
Elibrary 28
Web of science 23
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