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alpha quartz
Similarities and differences among selected gemmological varieties of chalcedony: chemistry, mineralogy and microstructure
The Effect of Strain on the Optical Properties of Quartz: Point-Dipole Calculations
Lattice preferred orientation of quartz in granitic gneisses from Tso Morari Crystalline Complex, Eastern Ladakh, trans-Himalaya: evaluating effect of Dauphiné twin in dynamic recrystallization during exhumation
The incompressibility of atoms at high pressures
A new experimental approach to study fluid–rock equilibria at the slab-mantle interface based on the synthetic fluid inclusion technique
Synthesis and structure of a stuffed derivative of α-quartz, Mg 0.5 AlSiO 4
Effect of pores and grain size on the elastic and piezoelectric properties of quartz-based materials
Trinitite redux: Mineralogy and petrology
Infrared absorption spectroscopy of SiO 2 -moganite
Elastic and anelastic properties of α - and β -quartz single crystals
Scanning time-resolved standoff Raman instrument for large-area mineral detection on planetary surfaces
In situ infrared spectroscopic studies of OH, H 2 O and CO 2 in moganite at high temperatures
The compression pathway of quartz
The study of α-quartz and α-cristobalite ballen in rocks from 16 impact structures (Bosumtwi, Chesapeake Bay, Chicxulub, Dellen, El'gygytgyn, Jänisjärvi, Lappajärvi, Logoisk, Mien, Popigai, Puchezh-Katunki, Ries, Rochechouart, Sääksjärvi, Ternovka, and Wanapitei) shows that ballen silica occurs mainly in impact melt rock and also in suevite, and more rarely in other types of impactites. Ballen α-cristobalite by itself was observed only in samples from the youngest craters studied here (at Bosumtwi and El'gygytgyn), but it occurs in association with α-quartz ballen in impactites from structures with intermediate ages (from ca. 35 to 120 Ma); thus, our observations suggest that α-cristobalite ballen are back-transformed to α-quartz with time. Transmission electron microscope observations show that α-cristobalite and α-quartz ballen have similar microtextures and are formed of several tiny angular crystals with sizes up to ~6 μm. The observation of toasted α-quartz ballen, notably at the Popigai impact structure, further supports the notion that toasting is due to vesicle formation after pressure release, at high post-shock temperatures, and, thus, represents the beginning of quartz breakdown due to heating. Our investigation increases the number of impact structures at which ballen silica has been found to 35.