1989 Articles

# Two-Layer Geostrophic Vortex Dynamics. Part 1. Upper-Layer V-States and Merger

We generalize the methods of two-dimensional contour dynamics to study a two-layer rotating fluid that obeys the quasi-geostrophic equations. We consider here only the case of a constant-potential-vorticity lower layer. We derive equilibrium solutions for monopolar (rotating) and dipolar (translating) geostrophic vortices in the upper layer, and compare them with the Euler case. We show that the equivalent barotropic (infinite lower layer) case is a singular limit of the two-layer system. We also investigate the effect of a finite lower layer on the merger of two regions of equal-sign potential vorticity in the upper layer. We discuss our results in the light of the recent laboratory experiments of Griffiths and Hopfinger (1986). The process of filamentation is found to be greatly suppressed for equivalent barotropic dynamics on scales larger than the radius of deformation. We show that the variation of the critical initial distance for merger as a function of the radius of deformation and the ratio of the layers at rest is closely related to the existence of vortex-pair equilibria and their geometrical properties.

## Subjects

## Files

- download6.pdf application/pdf 2.18 MB Download File

## Also Published In

- Title
- Journal of Fluid Mechanics
- DOI
- https://doi.org/10.1017/S0022112089002016

## More About This Work

- Academic Units
- Applied Physics and Applied Mathematics
- Lamont-Doherty Earth Observatory
- Ocean and Climate Physics
- Publisher
- Cambridge University Press
- Published Here
- November 19, 2013