Statistics of an Unstable Barotropic Jet from a Cumulant Expansion

Arakawa; Cho; E. Conover; Frisch; Gates; Held; Herring; Holloway; Holloway; Holloway; Huang; J. B. Marston; Legras; Lindzen; Lorenz; Ma; Majda; Maslowe; McComb; Miller; Nielsen; Orszag; O’Gorman; Robert; Salmon; Schneider; Schoeberl; Schoeberl; Shepherd; Shepherd; Stammer; Stewartson; Tapio Schneider; Turkington; Weichman

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Statistics of an Unstable Barotropic Jet from a Cumulant Expansion

Authors: Arakawa
Cho
E. Conover
Frisch
Gates
Held
Herring
Holloway
Holloway
Holloway
Huang
J. B. Marston
Legras
Lindzen
Lorenz
Ma
Majda
Maslowe
McComb
Miller
Nielsen
Orszag
O’Gorman
Robert
Salmon
Schneider
Schoeberl
Schoeberl
Shepherd
Shepherd
Stammer
Stewartson
Tapio Schneider
Turkington
Weichman
Publication date: 1 November 2007
Publisher: 'American Meteorological Society'
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Abstract

Low-order equal-time statistics of a barotropic flow on a rotating sphere are investigated. The flow is driven by linear relaxation toward an unstable zonal jet. For relatively short relaxation times, the flow is dominated by critical-layer waves. For sufficiently long relaxation times, the flow is turbulent. Statistics obtained from a second-order cumulant expansion are compared to those accumulated in direct numerical simulations, revealing the strengths and limitations of the expansion for different relaxation times.Comment: 23 pages, 8 figures. Version to appear in J. Atmos. Sc

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