Laboratory exploration of mineral precipitates from Europa's subsurface ocean

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Laboratory exploration of mineral precipitates from Europa's subsurface ocean. / Thompson, S.P.; Kennedy, Hilary; Butler, B.M. et al.
Yn: Journal of Applied Crystallography, Cyfrol 54, 01.10.2021, t. 1455-1479.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Thompson, SP, Kennedy, H, Butler, BM, Day, SJ, Safi, E & Evans, A 2021, 'Laboratory exploration of mineral precipitates from Europa's subsurface ocean', Journal of Applied Crystallography, cyfrol. 54, tt. 1455-1479. https://doi.org/10.1107/S1600576721008554

APA

Thompson, S. P., Kennedy, H., Butler, B. M., Day, S. J., Safi, E., & Evans, A. (2021). Laboratory exploration of mineral precipitates from Europa's subsurface ocean. Journal of Applied Crystallography, 54, 1455-1479. https://doi.org/10.1107/S1600576721008554

CBE

Thompson SP, Kennedy H, Butler BM, Day SJ, Safi E, Evans A. 2021. Laboratory exploration of mineral precipitates from Europa's subsurface ocean. Journal of Applied Crystallography. 54:1455-1479. https://doi.org/10.1107/S1600576721008554

MLA

Thompson, S.P. et al. "Laboratory exploration of mineral precipitates from Europa's subsurface ocean". Journal of Applied Crystallography. 2021, 54. 1455-1479. https://doi.org/10.1107/S1600576721008554

VancouverVancouver

Thompson SP, Kennedy H, Butler BM, Day SJ, Safi E, Evans A. Laboratory exploration of mineral precipitates from Europa's subsurface ocean. Journal of Applied Crystallography. 2021 Hyd 1;54:1455-1479. doi: 10.1107/S1600576721008554

Author

Thompson, S.P. ; Kennedy, Hilary ; Butler, B.M. et al. / Laboratory exploration of mineral precipitates from Europa's subsurface ocean. Yn: Journal of Applied Crystallography. 2021 ; Cyfrol 54. tt. 1455-1479.

RIS

TY - JOUR

T1 - Laboratory exploration of mineral precipitates from Europa's subsurface ocean

AU - Thompson, S.P.

AU - Kennedy, Hilary

AU - Butler, B.M.

AU - Day, S.J.

AU - Safi, E.

AU - Evans, A.

PY - 2021/10/1

Y1 - 2021/10/1

N2 - The precipitation of hydrated phases from a chondrite-like Na–Mg–Ca–SO4–Cl solution is studied using in situ synchrotron X-ray powder diffraction, under rapid- (360 K h−1, T = 250–80 K, t = 3 h) and ultra-slow-freezing (0.3 K day−1, T = 273–245 K, t = 242 days) conditions. The precipitation sequence under slow cooling initially follows the predictions of equilibrium thermodynamics models. However, after ∼50 days at 245 K, the formation of the highly hydrated sulfate phase Na2Mg(SO4)2·16H2O, a relatively recent discovery in the Na2Mg(SO4)2–H2O system, was observed. Rapid freezing, on the other hand, produced an assemblage of multiple phases which formed within a very short timescale (≤4 min, ΔT = 2 K) and, although remaining present throughout, varied in their relative proportions with decreasing temperature. Mirabilite and meridianiite were the major phases, with pentahydrite, epsomite, hydrohalite, gypsum, blödite, konyaite and loweite also observed. Na2Mg(SO4)2·16H2O was again found to be present and increased in proportion relative to other phases as the temperature decreased. The results are discussed in relation to possible implications for life on Europa and application to other icy ocean worlds.

AB - The precipitation of hydrated phases from a chondrite-like Na–Mg–Ca–SO4–Cl solution is studied using in situ synchrotron X-ray powder diffraction, under rapid- (360 K h−1, T = 250–80 K, t = 3 h) and ultra-slow-freezing (0.3 K day−1, T = 273–245 K, t = 242 days) conditions. The precipitation sequence under slow cooling initially follows the predictions of equilibrium thermodynamics models. However, after ∼50 days at 245 K, the formation of the highly hydrated sulfate phase Na2Mg(SO4)2·16H2O, a relatively recent discovery in the Na2Mg(SO4)2–H2O system, was observed. Rapid freezing, on the other hand, produced an assemblage of multiple phases which formed within a very short timescale (≤4 min, ΔT = 2 K) and, although remaining present throughout, varied in their relative proportions with decreasing temperature. Mirabilite and meridianiite were the major phases, with pentahydrite, epsomite, hydrohalite, gypsum, blödite, konyaite and loweite also observed. Na2Mg(SO4)2·16H2O was again found to be present and increased in proportion relative to other phases as the temperature decreased. The results are discussed in relation to possible implications for life on Europa and application to other icy ocean worlds.

U2 - 10.1107/S1600576721008554

DO - 10.1107/S1600576721008554

M3 - Article

VL - 54

SP - 1455

EP - 1479

JO - Journal of Applied Crystallography

JF - Journal of Applied Crystallography

SN - 1600-5767

ER -