2001
DOI: 10.1029/2000gl012474
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Strong zonal winds from thermal convection in a rotating spherical shell

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Cited by 104 publications
(112 citation statements)
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“…Previous 3D convection models adopted relatively thick shells with inner/outer radius ratios typically less than ~0.7, and generally produced only a few very broad jets (Aurnou and Olson 2001;Christensen 2001Christensen , 2002. Although these early studies always produced a superrotating equatorial jet, a positive feature, there was a discouraging lack of resemblence between the simulated jet profiles and those observed on Jupiter and Saturn.…”
Section: Models For Jet Pumpingmentioning
confidence: 80%
See 1 more Smart Citation
“…Previous 3D convection models adopted relatively thick shells with inner/outer radius ratios typically less than ~0.7, and generally produced only a few very broad jets (Aurnou and Olson 2001;Christensen 2001Christensen , 2002. Although these early studies always produced a superrotating equatorial jet, a positive feature, there was a discouraging lack of resemblence between the simulated jet profiles and those observed on Jupiter and Saturn.…”
Section: Models For Jet Pumpingmentioning
confidence: 80%
“…The superrotating equatorial jet in the 3D Boussinesq simulations of Aurnou and Olson (2001), Christensen (2001, Heimpel et al (2005), and Heimpel and Aurnou (2007) results from the interaction of columnar convective rolls with the curving spherical planetary surface (Busse 2002;Vasavada and Showman 2005). This mechanism, which can be viewed as a ``topographic'' β effect, requires convective rolls that act as coherent Taylor columns (i.e., the convective rolls must remain coherent along their entire length from the northern to the southern boundary).…”
Section: Models For Jet Pumpingmentioning
confidence: 99%
“…With the advance of computational abilities numerical 3D models (Sun et al, 1993;Aurnou and Olson, 2001;Christensen, 2002) solving the full Navier-Stokes equations subject to the Boussinesq approximation have demonstrated that in a rapidly rotating system a broad eastward ow can develop at the equator. This ow has been referred to result from the so-called Busse columns, though none of these studies actually demonstrated such columns explicitly.…”
Section: Deep Modelsmentioning
confidence: 99%
“…Previous attempts to model this system fall into two general categories: convection models with deep geometry that are limited to Boussinesq dynamics (e.g. Zhang and Schubert, 1997;Aurnou and Olson, 2001;Christensen, 2002;Heimpel et al, 2005), or spherical shell atmospheric type models which lack or parametrize the interior convection (e.g. Lee, 2004;Lian et al, 2006).…”
Section: Model Overviewmentioning
confidence: 99%
“…How convection in rotating spherical systems generates mean zonal flows has been studied for a very long time (see, for example, Busse 1970;Gilman & Glatzmaier 1981;Zhang 1992;Miesch et al 2000;Aurnou & Olson 2001;Christensen 2001;Jones et al 2003;Chan et al 2006;Heimpel & Aurnou 2007). In numerical simulations of rotating spherical convection, Grote & Busse (2001) (see also Aurnou & Olson 2001) noted that the differential rotation tends to shear off the convection columns and results in a temporal intermittency. Recent simulations of convection in a relatively thin spherical shell (Heimpel et al 2005;Heimpel & Aurnou 2007) show strong prograde equatorial jets outside the tangent cylinder while multiple jets form in the northern and southern hemispheres inside the tangent cylinder, which are very similar to those observed in Jupiter and Saturn.…”
Section: Introduction Recent Observations From the Hubble Space Telesmentioning
confidence: 99%