Validity of the One and One-Half Layer Quasi-Geostrophic Model and Effective Topography |
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Authors: | Andrew Majda |
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Institution: | Courant Institute of Mathematics Sciences , New York University , New York, USA |
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Abstract: | ABSTRACT We rigorously justify the so-called one and one-half layer quasi-geostrophic model from the two layer model as the ratio of the depth of the bottom layer over that of the top layer approaches infinity. The effective dynamics is given by the classical barotropic quasi-geostrophic dynamics for the bottom layer without topography, and the one layer quasi-geostrophic dynamics with the stream function of the bottom layer serving as an effective (possibly time-dependent) topography for the the top layer. Such a one and one-half layer model is utilized in successful quantitative prediction of the Great Red Spot on Jupiter (see Turkington et al., 2001
Turkington , B. ,
Majda , A. J. ,
Haven , K. ,
DiBattista , M. ( 2001 ). Statistical equilibrium predictions of jets and spots on jupiter. Proc. Natl. Acad. Sci. USA 98 ( 22 ): 12346 – 12350 . PUBMED] INFOTRIEVE] CSA] CROSSREF] Crossref] , Google Scholar]). |
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Keywords: | Effective topography One and one-half layer model Quasi-geostrophic model Two-layer model |
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