2019
DOI: 10.1029/2018gc007779
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The Xe‐SiO2 System at Moderate Pressure and High Temperature

Abstract: Xenon (Xe), the heaviest of the stable noble gases, is missing by a factor of 20 relatively to other noble gases, when comparing the Earth's and Mars's atmospheres with chondrites. In this work, the possibility of Xe retention in quartz, a major mineral of the continental crust, is tested. The Xe-SiO 2 system is investigated from 0.7 to 2.7 GPa and up to 1900 K, by in situ X-ray powder diffraction and infrared spectroscopy. Experimental data are complemented by ab initio calculations to retrieve Xe incorporati… Show more

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Cited by 9 publications
(17 citation statements)
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“…Figure 3) that appear under P upon heating above the melting curve of Xe, the reaction being thermodynamically favored by the volume reduction between reactants (i.e., liquid Xe and quartz or olivine) and products (i.e., Xe-doped quartz or Xe-doped olivine). Theoretical calculations have confirmed this mechanism for quartz [43,76,77] and olivine [42], and helped refine the crystal-chemistry of Xe in these minerals. Volume and cell-parameters vs. P relationships as well as Raman signature of Xe-doped silicates could be theoretically reproduced by substituting Xe to Si albeit in different geometries depending on the mineral: quasi-planar three-fold in olivine vs. linear twofold (2 nearest O atoms at 1.99 Å) with 2 next nearest O neighbors in orthogonal plan at 2.27 Å in quartz [43].…”
Section: Xenon As a Minor/trace Element In Oxidesmentioning
confidence: 86%
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“…Figure 3) that appear under P upon heating above the melting curve of Xe, the reaction being thermodynamically favored by the volume reduction between reactants (i.e., liquid Xe and quartz or olivine) and products (i.e., Xe-doped quartz or Xe-doped olivine). Theoretical calculations have confirmed this mechanism for quartz [43,76,77] and olivine [42], and helped refine the crystal-chemistry of Xe in these minerals. Volume and cell-parameters vs. P relationships as well as Raman signature of Xe-doped silicates could be theoretically reproduced by substituting Xe to Si albeit in different geometries depending on the mineral: quasi-planar three-fold in olivine vs. linear twofold (2 nearest O atoms at 1.99 Å) with 2 next nearest O neighbors in orthogonal plan at 2.27 Å in quartz [43].…”
Section: Xenon As a Minor/trace Element In Oxidesmentioning
confidence: 86%
“…Xe-doped quartz transforms into a new (Xe,Si)O 2 phase upon increased heating above 1,700 K at 1 GPa [43]. (Xe,Si)O 2 structure bears similarities to the predicted XeO 2 structure [64] FIGURE 3 | Infrared spectra on Xe-doped silicates under high P-T conditions generated using resistive-heating diamond-anvil cells.…”
Section: Xenon As a Minor/trace Element In Oxidesmentioning
confidence: 92%
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“…Recent experimental studies propose that missing Xe might be stored inside silicate structures in the deep Earth (Crépisson et al 2018;Crépisson et al 2019;Sanloup 2005 (Pepin 1991). This Xe component has been nicknamed U-Xe and has resisted decades of investigation (Pepin 1994 Fig.…”
Section: The Long-standing Xenon Paradoxmentioning
confidence: 99%