Sodium salts in E-ring ice grains from an ocean below the surface of Enceladus

Postberg, F.; Kempf, S.; Schmidt, Jürgen; Brilliantov, Nikolai V.; Beinsen, A.; Abel, Bernd; Buck, U.; Srama, R.

doi:10.1038/nature08046

Cited by 464 publications

(637 citation statements)

References 25 publications

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“…The results can be briefly summarized as follows: (1) the scattering of primary electrons inside the grain is critical to understanding the secondary electron emission, (2) the grain charge is determined not only by the SEE yield, but equally important is the energy distribution of secondary electrons, (3) the increase of the surface potential with decreasing grain size is predominantly caused by the increasing number of backscattered primary electrons, not by true secondary electrons. The model was successfully verified by laboratory experiments on Motivated by the Cassini observation of ice dust grains with a salt admixture in the Saturnian E-ring (Postberg et al 2009), used the last modification of the secondary emission model ) to study the secondary emission yield and surface potential of icy dust grains as a function of the grain size and the salt admixture (see Fig. 11).…”

Section: Secondary Electron Emission Experiments (See)mentioning

confidence: 99%

Dusty Plasma Effects in Near Earth Space and Interplanetary Medium

et al. 2011

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Dusty plasma effects in near earth space and interplanetary mediumSpace Science Reviews, 2011, Vol. 161, Issue 1-4: 1-47 10.1007/s11214-011-9762-3Access to the published version may require subscription. Published with permission from:Springer Science+Business Media B.V.Space Science Reviews manuscript No. (will be inserted by the editor) Dusty plasma effects in near Earth space and interplanetary mediumReceived: date / Accepted: date Abstract We review dust and meteoroid fluxes and their dusty plasma effects in the interplanetary medium near Earth orbit and in the Earth's ionosphere. Aside from in-situ measurements from sounding rockets and spacecraft, experimental data cover radar and optical observations of meteors. Dust plasma interactions in the interplanetary medium are observed by the detection of charged dust particles, by the detection of dust that is accelerated in the solar wind and by the detection of ions and neutrals that are released from the dust. These interactions are not well understood and lack quantitative description. There is still a huge discrepancy in the estimates of meteoroid mass deposition into the atmosphere. The radar meteor observations are of particular interest for determining this number. Dust measurements from spacecraft require a better understanding of the dust impact ionization process, as well as of the dust charging processes. The latter are also important for further studying nano dust trajectories in the solar wind. Moreover understanding of the complex dependencies that cause the variation of nano dust fluxes is still a challenge.

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Section: Secondary Electron Emission Experiments (See)mentioning

confidence: 99%

Dusty Plasma Effects in Near Earth Space and Interplanetary Medium

et al. 2011

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“…More favorable assumptions on the availability of oxygen and/or hydrogen through the ice shell and in the ocean itself led Chyba & Hand (2001b) to estimate a steady-state biomass of ∼10 13 -10 15 g, compared with the terrestrial biomass of ∼10 18 g. On Enceladus, the discovery of the quasi-continuous ejection of plumes from the south polar region led to a "cold geyser" scenario whereby liquid water stored in high pressure pockets below the surface is vented into space in the form of vapor and fine ice particles (Porco et al 2006, Matson et al 2007, Waite et al 2009). The presence of an alkalin ocean, with a composition dominated by NaCl, NaHCO 3 , Na 2 CO 3 , and K + , is strongly suggested by the analysis of the ejected icy particles (Postberg et al 2009). Thus, the internal environment is thought to be favorable for aqueous catalytic chemistry, permitting the synthesis of many complex organic compounds.…”

Section: Europa and Enceladusmentioning

confidence: 99%

Europa, Enceladus, and Titan as possible sites for life

Courtin

2009

Proc. IAU

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“…In the Solar System such subsurface oceans exist in Europa, Titan, Enceladus, and possibly also in Ganymede and Callisto. The liquid phase state of these oceans are maintained by tidal heat production, freezing point depressing solved ingredients, and/or internal heat due to accretional energy conservation and radiogenic heat (Carr et al 1998;Khurana et al 1998;Kargel et al 2000;Zimmer et al 2000;McCord et al 2001;Schenk 2002;Collins & Goodman 2007;Roberts & Nimmo 2008;Lorenz et al 2008;Postberg et al 2009;Iess et al 2014;Dobos & Turner 2015). Having information on the existence of surface ice, using mass estimation from TTV and TDV might increase the probability to identify exomoons that are probable of having subsurface oceans.…”

Section: Importance Of Icementioning

confidence: 99%

Possibility for albedo estimation of exomoons: Why should we care about M dwarfs?

Dobos¹,

Keresztúri²,

Pál³

et al. 2016

A&A

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Occultation light curves of exomoons may give information on their albedo and hence indicate the presence of ice cover on the surface. Icy moons might have subsurface oceans thus these may potentially be habitable. The objective of our paper is to determine whether next generation telescopes will be capable of albedo estimations for icy exomoons using their occultation light curves. The success of the measurements depends on the depth of the moon's occultation in the light curve and on the sensitivity of the used instruments. We applied simple calculations for different stellar masses in the V and J photometric bands, and compared the flux drop caused by the moon's occultation and the estimated photon noise of next generation missions with 5 σ confidence. We found that albedo estimation by this method is not feasible for moons of solar-like stars, but small M dwarfs are better candidates for such measurements. Our calculations in the J photometric band show that E-ELT MICADO's photon noise is just about 4 ppm greater than the flux difference caused by a 2 Earth-radii icy satellite in a circular orbit at the snowline of an 0.1 stellar mass star. However, considering only photon noise underestimates the real expected noise, because other noise sources, such as CCD read-out and dark signal become significant in the near infrared measurements. Hence we conclude that occultation measurements with next generation missions are far too challenging, even in the case of large, icy moons at the snowline of small M dwarfs. We also discuss the role of the parameters that were neglected in the calculations, e.g. inclination, eccentricity, orbiting direction of the moon. We predict that the first albedo estimations of exomoons will probably be made for large icy moons around the snowline of M4 -M9 type main sequence stars.

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Sodium salts in E-ring ice grains from an ocean below the surface of Enceladus

Cited by 464 publications

References 25 publications

Dusty Plasma Effects in Near Earth Space and Interplanetary Medium

Dusty Plasma Effects in Near Earth Space and Interplanetary Medium

Europa, Enceladus, and Titan as possible sites for life

Possibility for albedo estimation of exomoons: Why should we care about M dwarfs?

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