L. A. Sromovsky scite author profile

Near-infrared adaptive optics imaging of Uranus by the Keck 2 telescope during 2003 and 2004 has revealed numerous discrete cloud features, 70 of which were used to extend the zonal wind profile of Uranus up to 60• N. We confirmed the presence of a north-south asymmetry in the circulation (Karkoschka, Science 111, 570-572, 1998) • N, which we don't see in our 2003-2004 observations. We observed a wide range of lifetimes for discrete cloud features: some features evolve within ∼1 hour, many have persisted at least one month, and one feature near 34• S (termed S34) seems to have persisted for nearly two decades, a conclusion derived with the help of Voyager 2 and HST observations. S34 oscillates in latitude between 32• S and 36.5• S, with a period of ∼1000 days, which may be a result of a non-barotropic Rossby wave. It also varied its longitudinal drift rate between -20• /day and -31• /day in approximate accord with the latitudinal gradient in the zonal wind profile, exhibiting behavior similar to that of the DS2 feature observed on Neptune (Sromovsky et al., Icarus 105, 110-141, 1993). S34 also exhibits a superimposed rapid oscillation with an amplitude of 0.57• in latitude and period of 0.7 days, which is approximately consistent with an inertial oscillation.

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Post-equinox dynamics and polar cloud structure on Uranus

Sromovsky¹,

Fry²,

Hammel³

et al. 2012

Icarus

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Post equinox imaging of Uranus by HST, Keck, and Gemini telescopes has enabled new measurements of winds over previously sampled latitudes as well as measurements at high northern latitudes that have recently come into better view. These new observations also used techniques to greatly improve signal to noise ratios, making possible the detection and tracking of more subtle cloud features. The 250 m/s prograde jet peaking near 60• N was confirmed and more accurately characterized. Several long-lived cloud features have also been tracked. The winds pole-ward of 60• N are consistent with solid body rotation at a westward (prograde) rate of 4.3• /h with respect to Uranus' interior. When combined with 2007 and other recent measurements, it is clear that a small but well-resolved asymmetry exists in the zonal profile at middle latitudes, peaking at 35• , where southern winds are 20 m/s more westward than corresponding northern winds. High S/N Keck II imaging of the north polar region of Uranus reveals a transition from streaky bands below 60• N to a region from 60• to nearly the north pole, where widely distributed small bright spots, resembling cumulus cloud fields, with several isolated dark spots, are the dominant style of cloud features. This presents a stark contrast to 2003 detailed views of the south polar region of Uranus when no discrete cloud features could be detected in comparable Keck II near-IR images. The pressure levels of discrete clouds estimated from spatial modulations in H and Hcont images indicate that the polar cloud features are generally in the 1.3 to 2-3 bar range, as are equatorial and several mid-latitude features. Several of the brighter mid latitude features are found above the 1.2-bar level of methane condensation.

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The Dark Spot in the atmosphere of Uranus in 2006: Discovery, description, and dynamical simulations

Hammel

Sromovsky

Fry

et al. 2009

Icarus

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Dynamics, evolution, and structure of Uranus' brightest cloud feature

Sromovsky

Fry

Hammel

et al. 2007

Icarus

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L. A. Sromovsky

Titan's Surface, Revealed by HST Imaging

Dynamics of cloud features on Uranus

Post-equinox dynamics and polar cloud structure on Uranus

The Dark Spot in the atmosphere of Uranus in 2006: Discovery, description, and dynamical simulations

Dynamics, evolution, and structure of Uranus' brightest cloud feature

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