On the formation of diaplectic glass: Shock and thermal experiments with plagioclase of different chemical compositions

Jörg Fritz, Vera Assis Fernandes, Ansgar Greshake, Andreas Holzwarth, Ute Böttger

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Abstract

This contribution addresses the role of chemical composition, pressure, temperature, and time during the shock transformation of plagioclase into diaplectic glass—i.e., maskelynite. Plagioclase of An 50-57 and An 94 was recovered as almost fully isotropic maskelynite from room temperature shock experiments at 28 and 24 GPa. The refractive index (RI) decreased to values of a quenched mineral glass for An 50-57 plagioclase shocked to 45 GPa and shows a maximum in An 94 plagioclase shocked to 41.5 GPa. The An 94 plagioclase experiments can serve as shock thermobarometer for lunar highland rocks and howardite, eucrite, and diogenite meteorites. Shock experiments at 28, 32, 36, and 45 GPa and initial temperatures of 77 and 293 K on plagioclase (An 50-57 ) produced materials with identical optical and Raman spectroscopic properties. In the low temperature (<540 K) region, the formation of maskelynite is entirely controlled by shock pressure. The RI of maskelynite decreased in heating experiments of 5 min at temperatures of >770 K, thus, providing a conservative upper limit for the postshock temperature history of the rock. Although shock recovery experiments and static pressure experiments differ by nine orders of magnitude in typical time scale (microseconds versus hours), the amorphization of plagioclase occurs at similar pressure and temperature conditions with both methods. The experimental shock calibration of plagioclase can, together with other minerals, be used as shock thermobarometer for naturally shocked rocks.

Original languageEnglish
JournalMeteoritics and Planetary Science
Early online date15 Apr 2019
DOIs
Publication statusPublished - 2019

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