Some interactions between small numbers of baroclinic,geostrophic vortices |
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| Authors: | W R Young |
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| Institution: | 1. Marine Physical Laboratory of the Scripps Institution of Oceanography , University of California , San Diego La Jolla, CA, 92093;2. Dept. of Earth Atmospheric and Planetary Sciences , Massachusetts Institute of Technology , Cambridge, MA, 02139 |
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| Abstract: | Abstract Various interactions between small numbers (two and four) of baroclinic, geostrophic point vortices in a two-layer system are studied with attention to the qualitative changes in behavior which occur as size of the deformation radius is varied. A particularly interesting interaction, which illustrates the richness of baroclinic vortex dynamics, is a collision between two hetons. (A heton is a vortex pair in which the constituent vortices have opposite signs and are in opposite layers. The “breadth” of a heton is the distance between its constituent vortices. A translating heton transports heat.) When two hetons, which initially have different breadths, collide, the result is either an exchange of partners, or a “slip-through” collision in which the initial structures are preserved. It is shown here that the outcome is always an exchange, provided the deformation radius is sufficiently small. This strongly contrasts with a collision between pairs of classical, one-layer vortices in which no exchange occurs if the initial ratio of the breadths is sufficiently extreme. Finally the transport of passive fluid by a translating baroclinic pair is investigated. A pair of vortices in the top layer transports no lower layer fluid if the distance between the vortices is less than 1.72 deformation radii. By contrast, the size of the region trapped by a heton increases without bound as the spacing between the vortices increases. |
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| Keywords: | Solitary waves solitons convective plumes mantle convection |
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