Enceladus and the Icy Moons of Saturn 2018
DOI: 10.2458/azu_uapress_9780816537075-ch007
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Plume and Surface Composition of Enceladus

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Cited by 39 publications
(60 citation statements)
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“…Plume material venting from Enceladus are composed of a mixture of water ice, salts, silica particles, and organic material (Postberg et al 2018a). The ejected material is thought to be travelling at velocities in the range of 80 m s −1 to 2 km s −1 (Hedman et al 2009;Perry et al 2016) and velocities between 7.5 to 17 km s −1 were experienced by the Cassini spacecraft as it passed through the plume (Postberg et al 2018a). Therefore, laboratory based experiments simulating the ejection of material or sample collection conditions would be required to assist in the interpretation of data being collected.…”
Section: Plume and Sample Collectionmentioning
confidence: 99%
“…Plume material venting from Enceladus are composed of a mixture of water ice, salts, silica particles, and organic material (Postberg et al 2018a). The ejected material is thought to be travelling at velocities in the range of 80 m s −1 to 2 km s −1 (Hedman et al 2009;Perry et al 2016) and velocities between 7.5 to 17 km s −1 were experienced by the Cassini spacecraft as it passed through the plume (Postberg et al 2018a). Therefore, laboratory based experiments simulating the ejection of material or sample collection conditions would be required to assist in the interpretation of data being collected.…”
Section: Plume and Sample Collectionmentioning
confidence: 99%
“…Estimates for the gas-to-ice ratio in the plume vary greatly, ranging from 30 to 1.5. However, the latest estimates settle around a value of 10 Postberg et al 2018a). The plume is also known to be time-variable.…”
Section: Environmental Conditions and Engineering Constraintsmentioning
confidence: 99%
“…Comparison of the suprathermal heavy ion measurements from the three planets allows us to utilize the abundant Jovian S + measurement peak as a fiducial at 32 amu/e, which, when combined with the uncomplicated observations of MI escape from Saturn's magnetosphere, allows us to more clearly identify Earth's magnetospheric MI populations. Four molecular ions at Saturn, CO + , N 2 + , HCNH + , and C 2 H 4 + , have now been suggested or identified in particle fluxes at Saturn that could possibly contribute to the ubiquitous suprathermal heavy ion signal with an atomic mass of 28 amu that is observed in and near Saturn's magnetosphere (Waite et al, 2009;Westlake, Paranicas, et al, 2012;Mandt et al, 2012;Postberg et al, 2018). CO, N 2 , and HCNH are among the molecules with the strongest chemical bonds in chemistry (Kalescky et al, 2013).…”
Section: Introductionmentioning
confidence: 99%
“…Once released somewhere in Saturn's magnetosphere, either near Saturn's rings, Enceladus, or Titan, any one of the three should likely persist long enough to ionize (if neutral on release), circulate, and be accelerated to suprathermal energies. Note though that some of the relatively abundant CO 2 in the Enceladus plumes (Postberg et al, 2018;Waite et al, 2006Waite et al, , 2009) might evolve into the observed CO + through dissociation in the high-energy charged particle environment near~4 R S . Waite et al (2006Waite et al ( , 2009 argued that the dominant neutral 28-amu thermal energy molecule in the Enceladus plume was more likely N 2 or C 2 H 4 rather than CO, citing corroborating measurements from other Cassini instruments.…”
Section: Introductionmentioning
confidence: 99%