The Astrophysical Journal Letters

The Astrophysical Journal Letters

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The Astrophysical Journal Letters Volume 649 Number 2 Create an alert RSS this journal

M. J. Loeffler et al 2006 ApJ 649 L133 doi:10.1086/508459

Enceladus: A Source of Nitrogen and an Explanation for the Water Vapor Plume Observed by Cassini

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M. J. Loeffler1, U. Raut1 and R. A. Baragiola1,2

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Abstract References Cited By

Recently, the Cassini spacecraft observed an unexpected emission of plumes of water vapor, nitrogen, and icy particles from the southern polar region of Saturn's icy moon Enceladus. While these findings support previous ideas of geological activity in this icy moon, there is no experimental evidence explaining how these plumes could be produced at the low (~130-160 K) surface temperatures. Here we show that similar behavior appears when heating water-ammonia ices that have been irradiated with protons that simulate Saturn's energetic ion environment. In our experiments, the behavior results from the eruption of high-pressure bubbles of hydrogen and nitrogen molecules that accumulate in the ice due to the radiolytic decomposition of ammonia. The thermal release of nitrogen can explain the intriguing finding of N+ in the inner magnetosphere. Thus, our laboratory simulations indicate that radiation processing of the surface of Enceladus may explain much of the extraordinary phenomena that have been observed by Cassini.


Subject headings

infrared: general; methods: laboratory; planets and satellites: individual (Enceladus, Saturn); radiation mechanisms: general


Dates

Issue 2 (2006 October 1)

Received 2006 May 31, accepted for publication 2006 August 16

Published 2006 September 19



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