J. N. Cuzzi scite author profile

The Pioneer and Voyager spacecraft made close-up measurements of Saturn’s ionosphere and upper atmosphere in the 1970s and 1980s that suggested a chemical interaction between the rings and atmosphere. Exploring this interaction provides information on ring composition and the influence on Saturn’s atmosphere from infalling material. The Cassini Ion Neutral Mass Spectrometer sampled in situ the region between the D ring and Saturn during the spacecraft’s Grand Finale phase. We used these measurements to characterize the atmospheric structure and material influx from the rings. The atmospheric He/H2 ratio is 10 to 16%. Volatile compounds from the rings (methane; carbon monoxide and/or molecular nitrogen), as well as larger organic-bearing grains, are flowing inward at a rate of 4800 to 45,000 kilograms per second.

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Ring Particle Composition and Size Distribution

Cuzzi

Clark

Filacchione³

et al. 2009

133

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An Evolving View of Saturn’s Dynamic Rings

Cuzzi

Burns

Charnoz

et al. 2010

Science

127

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We review our understanding of Saturn's rings after nearly 6 years of observations by the Cassini spacecraft. Saturn's rings are composed mostly of water ice but also contain an undetermined reddish contaminant. The rings exhibit a range of structure across many spatial scales; some of this involves the interplay of the fluid nature and the self-gravity of innumerable orbiting centimeter- to meter-sized particles, and the effects of several peripheral and embedded moonlets, but much remains unexplained. A few aspects of ring structure change on time scales as short as days. It remains unclear whether the vigorous evolutionary processes to which the rings are subject imply a much younger age than that of the solar system. Processes on view at Saturn have parallels in circumstellar disks.

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In situ collection of dust grains falling from Saturn’s rings into its atmosphere

Hsu

Schmidt

Kempf

et al. 2018

Science

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Saturn’s main rings are composed of >95% water ice, and the nature of the remaining few percent has remained unclear. The Cassini spacecraft’s traversals between Saturn and its innermost D ring allowed its cosmic dust analyzer (CDA) to collect material released from the main rings and to characterize the ring material infall into Saturn. We report the direct in situ detection of material from Saturn’s dense rings by the CDA impact mass spectrometer. Most detected grains are a few tens of nanometers in size and dynamically associated with the previously inferred “ring rain.” Silicate and water-ice grains were identified, in proportions that vary with latitude. Silicate grains constitute up to 30% of infalling grains, a higher percentage than the bulk silicate content of the rings.

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A Study of Saturn's Ring Phase Curves from HST Observations

Poulet

Cuzzi

French

et al. 2002

Icarus

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J. N. Cuzzi

Chemical interactions between Saturn’s atmosphere and its rings

Ring Particle Composition and Size Distribution

An Evolving View of Saturn’s Dynamic Rings

In situ collection of dust grains falling from Saturn’s rings into its atmosphere

A Study of Saturn's Ring Phase Curves from HST Observations

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