Ulyana A. Dyudina scite author profile

Titan, the largest moon of Saturn, is the only satellite in the Solar System with a substantial atmosphere. The atmosphere is poorly understood and obscures the surface, leading to intense speculation about Titan's nature. Here we present observations of Titan from the imaging science experiment onboard the Cassini spacecraft that address some of these issues. The images reveal intricate surface albedo features that suggest aeolian, tectonic and fluvial processes; they also show a few circular features that could be impact structures. These observations imply that substantial surface modification has occurred over Titan's history. We have not directly detected liquids on the surface to date. Convective clouds are found to be common near the south pole, and the motion of mid-latitude clouds consistently indicates eastward winds, from which we infer that the troposphere is rotating faster than the surface. A detached haze at an altitude of 500 km is 150-200 km higher than that observed by Voyager, and more tenuous haze layers are also resolved.

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Cassini Imaging Science: Initial Results on Phoebe and Iapetus

Porco

Baker

Barbara

et al. 2005

Science

175

146

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The Cassini Imaging Science Subsystem acquired high-resolution imaging data on the outer Saturnian moon, Phoebe, during Cassini's close flyby on 11 June 2004 and on Iapetus during a flyby on 31 December 2004. Phoebe has a heavily cratered and ancient surface, shows evidence of ice near the surface, has distinct layering of different materials, and has a mean density that is indicative of an ice-rock mixture. Iapetus's dark leading side (Cassini Regio) is ancient, heavily cratered terrain bisected by an equatorial ridge system that reaches 20 kilometers relief. Local albedo variations within and bordering Cassini Regio suggest mass wasting of ballistically deposited material, the origin of which remains unknown.

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Cassini Imaging Science: Initial Results on Saturn's Rings and Small Satellites

Porco

Baker

Barbara

et al. 2005

Science

182

128

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Images acquired of Saturn's rings and small moons by the Cassini Imaging Science Subsystem (ISS) during the first 9 months of Cassini operations at Saturn have produced many new findings. These include new saturnian moons; refined orbits of new and previously known moons; narrow diffuse rings in the F-ring region and embedded in gaps within the main rings; exceptionally fine-scale ring structure in moderateâ to highâoptical depth regions; new estimates for the masses of ring-region moons, as well as ring particle properties in the Cassini division, derived from the analysis of linear density waves; ring particle albedos in select ring regions; and never-before-seen phenomena within the rings.

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Dynamics of Saturn’s great storm of 2010–2011 from Cassini ISS and RPWS

Sayanagi

Dyudina

Ewald

et al. 2013

Icarus

120

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Cassini Imaging Science: Initial Results on Saturn's Atmosphere

Porco

Baker

Barbara

et al. 2005

Science

114

110

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The Cassini Imaging Science Subsystem (ISS) began observing Saturn in early February 2004. From analysis of cloud motions through early October 2004, we report vertical wind shear in Saturn's equatorial jet and a maximum wind speed of â¼375 meters per second, a value that differs from both Hubble Space Telescope and Voyager values. We also report a particularly active narrow southern mid-latitude region in which dark ovals are observed both to merge with each other and to arise from the eruptions of large, bright storms. Bright storm eruptions are correlated with Saturn's electrostatic discharges, which are thought to originate from lightning.

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Lightning storms on Saturn observed by Cassini ISS and RPWS during 2004–2006

Dyudina

Ingersoll

Ewald

et al. 2007

Icarus

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A giant thunderstorm on Saturn

Fischer

Kurth

Gurnett

et al. 2011

Nature

117

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Lightning discharges in Saturn's atmosphere emit radio waves with intensities about 10,000 times stronger than those of their terrestrial counterparts. These radio waves are the characteristic features of lightning from thunderstorms on Saturn, which last for days to months. Convective storms about 2,000 kilometres in size have been observed in recent years at planetocentric latitude 35° south (corresponding to a planetographic latitude of 41° south). Here we report observations of a giant thunderstorm at planetocentric latitude 35° north that reached a latitudinal extension of 10,000 kilometres-comparable in size to a 'Great White Spot'-about three weeks after it started in early December 2010. The visible plume consists of high-altitude clouds that overshoot the outermost ammonia cloud layer owing to strong vertical convection, as is typical for thunderstorms. The flash rates of this storm are about an order of magnitude higher than previous ones, and peak rates larger than ten per second were recorded. This main storm developed an elongated eastward tail with additional but weaker storm cells that wrapped around the whole planet by February 2011. Unlike storms on Earth, the total power of this storm is comparable to Saturn's total emitted power. The appearance of such storms in the northern hemisphere could be related to the change of seasons, given that Saturn experienced vernal equinox in August 2009.

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Saturn's south polar vortex compared to other large vortices in the Solar System

Dyudina

Ingersoll

Ewald

et al. 2009

Icarus

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Ulyana A. Dyudina

Imaging of Titan from the Cassini spacecraft

Cassini Imaging Science: Initial Results on Phoebe and Iapetus

Cassini Imaging Science: Initial Results on Saturn's Rings and Small Satellites

Dynamics of Saturn’s great storm of 2010–2011 from Cassini ISS and RPWS

Cassini Imaging Science: Initial Results on Saturn's Atmosphere

Lightning storms on Saturn observed by Cassini ISS and RPWS during 2004–2006

A giant thunderstorm on Saturn

Saturn's south polar vortex compared to other large vortices in the Solar System

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