2016
DOI: 10.1093/mnras/stw3223
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Role of serpentinization in the thermal and connected mineral evolution of planetesimals – evaluating possible consequences for exoplanetary systems

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Cited by 13 publications
(49 citation statements)
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“…Based on meteorite samples, it is generally estimated that these aqueous changes occur on a short timescale of about 100 yr, at low temperatures, but above the melting temperature of H 2 O, supported by previous models (Dufresne & Anders 1962;Grimm & Mcsween 1989;Zolensky et al 1989). Góbi & Kereszturi (2017) pointed out the importance of interfacial water. This type of water can exist at temperatures below the melting point of bulk "classical" water as a microscopic liquid film along mineral-H 2 O interfaces at subzero temperatures, mainly due to van der Waals forces, enabling the serpentinization process to proceed.…”
Section: Introductionmentioning
confidence: 60%
See 1 more Smart Citation
“…Based on meteorite samples, it is generally estimated that these aqueous changes occur on a short timescale of about 100 yr, at low temperatures, but above the melting temperature of H 2 O, supported by previous models (Dufresne & Anders 1962;Grimm & Mcsween 1989;Zolensky et al 1989). Góbi & Kereszturi (2017) pointed out the importance of interfacial water. This type of water can exist at temperatures below the melting point of bulk "classical" water as a microscopic liquid film along mineral-H 2 O interfaces at subzero temperatures, mainly due to van der Waals forces, enabling the serpentinization process to proceed.…”
Section: Introductionmentioning
confidence: 60%
“…Our serpentinization model is based on Góbi & Kereszturi (2017), which is an improved serpentinization model from heat balance (Lowell & Rona 2002;Allen & Seyfried 2004) and dynamic models (Cohen & Coker 2000). Góbi & Kereszturi (2017) used a kinetic approach to estimate the rate of serpentinization and follow its evolution.…”
Section: Thermal Evolution Model Of Planetesimalsmentioning
confidence: 99%
“…Turning our attention to short-lived radionuclides, specifically aluminium-26, they are unlikely to affect habitability over Gyr timescales, irrespective of their initial inventory. However, a number of crucial short-term factors depend on its abundance such as differentiation and dehydration of planetesimals (Gilmour & Middleton 2009;Lichtenberg et al 2019), and melting ice to initiate serpentinization (Góbi & Kereszturi 2017). A number of metrics indicate that high levels of aluminium-26 are widespread in extrasolar systems, especially in young stars (Lugaro et al 2018).…”
Section: Biological Implicationsmentioning
confidence: 99%
“…Aqueous and thermal alteration results in a mineralogical repertoire of about 250 different minerals. Phyllosilicates are especially important in this aspect, as their occurrence points to aqueous alteration [80], which might happen not only in large planets but also inside small planetesimals if a substantial heat source exists, like Al 26 or Fe 60 in the case of the Solar System [81]. These isotopes together with accretional heat-melted ice contribute to the weathering of silicates to clays, e.g.…”
Section: Early Planetary Mineralogymentioning
confidence: 99%