In:
Journal of Geophysical Research: Planets, American Geophysical Union (AGU), Vol. 106, No. E2 ( 2001-02-25), p. 3311-3319
Abstract:
We report studies on the thermal and radiolytic stability of the hydrated salt minerals epsomite (MgSO 4 ·7H 2 O), mirabilite (Na 2 SO 4 ·10H 2 O), and natron (Na 2 CO 3 ·10H 2 O) under the low‐temperature and ultrahigh vacuum conditions characteristic of the surface of the Galilean satellite Europa. We prepared samples, ran temperature‐programmed dehydration (TPD) profiles and irradiated the samples with electrons. The TPD profiles are fit using Arrhenius‐type first‐order desorption kinetics. This analysis yields activation energies of 0.90±0.10, 0.70±0.07, and 0.45±0.05 eV for removal of the hydration water for epsomite, natron, and mirabilite, respectively. A simple extrapolation indicates that at Europa surface temperatures ( 〈 130 K), epsomite should remain hydrated over geologic timescales (∼10 11 –10 14 years), whereas natron and mirabilite may dehydrate appreciably in approximately 10 8 and 10 3 years, respectively. A small amount of SO 2 was detected during and after 100 eV electron‐beam irradiation of dehydrated epsomite and mirabilite samples, whereas products such as O 2 remained below detection limits. The upper limit for the 100 eV electron‐induced damage cross section of mirabilite and epsomite is ∼10 −19 cm 2 . The overall radiolytic stability of these minerals is partially due to (1) the multiply charged nature of the sulfate anion, (2) the low probability of reversing the attractive Madelung (mostly the attractive electrostatic) potential via Auger decay, and (3) solid‐state caging effects. Our laboratory results on the thermal and radiolytic stabilities of these salt minerals indicate that hydrated magnesium sulfate and perhaps other salts could exist for geologic timescales on the surface of Europa.
Type of Medium:
Online Resource
ISSN:
0148-0227
DOI:
10.1029/2000JE001282
Language:
English
Publisher:
American Geophysical Union (AGU)
Publication Date:
2001
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