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Length scale dependence of high-pressure amorphization: the static amorphization of anorthite

Published online by Cambridge University Press:  05 July 2018

Simon A. T. Redfern
Simon A. T. Redfern*
Affiliation:
Department of Earth Sciences, University of Cambridge, Downing Street, Cambridge, CB2 3EQ, UK
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Abstract

High-pressure amorphization of anorthite has been observed by energy-dispersive X-ray diffraction of powdered samples held under static pressure in a diamond anvil cell. The onset of amorphization is accompanied by a significant reduction in the intensity of Bragg reflections at pressures between 10 and 14 GPa, and anorthite becomes completely X-ray amorphous between 14 and 20 GPa. These pressures are significantly lower than those suggested by earlier birefringence studies. The discrepancy can be reconciled in terms of a model of high-pressure amorphization in which partially amorphized anorthite can be regarded as a spatially heterogeneous anti-glass, with long-range order maintained but translational disorder dominating at shorter correlation lengths.

Keywords

high-pressure amorphizationanorthiteanti-glassmetamictisation
Type
Mineralogy
Information
Mineralogical Magazine , Volume 60 , Issue 400 , June 1996 , pp. 493 - 498
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1996

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References

Arndt, J., Hummel, W. and Gonzalez-Cabeza, I. (1982) Diaplectic labradorite glass from the Manicouagan impact crater. I. Physical properties, crystallisation, structural and genetic implications. Phys. Chem. Mineral., 8, 230–9.CrossRefGoogle Scholar
Binggeli, N., Chelikowsky, J.R. and Wentzcovitch, R.M. (1994a) Simulating the amorphization of α-quartz under pressure. Phys. Rev. BCondensed Matter, 49, 9336–40.CrossRefGoogle Scholar
Binggeli, N., Keskar, N.R. and Chelikowsky, J.R. (1994b) Pressure-induced amorphization, elastic instability and soft-modes in a-quartz. Phys. Rev. B —Condensed Matter, 49, 3075–81.CrossRefGoogle Scholar
Clark, S.M. (1992) A new white beam single crystal and powder diffraction facility at the SRS. Rev. Scientific Instruments, 63, 1010–12.CrossRefGoogle Scholar
Cordier, P., Doukhan, J.C. and Peyronneau, J. (1993) Structural transformations of quartz and berlinite AlPO4 at high pressure and room temperature: a transmission electron microscopy study. Phys. Chem. Mineral., 20, 176–89.CrossRefGoogle Scholar
Daniel, I., Gillet, P., McMillan, P.F. and Pruvot, H. (1995a) High-pressure behavior of plagioclase feldspars: crystalline phase transitions and amorphization. Terra Abstracts: supplement 1 to Terra Nova, 7, 75.Google Scholar
Daniel, I., Gillet, P. and Ghose, S. (1995b) A new high- pressure phase transition in anorthite (CaAl2Si2O8) revealed by Raman spectroscopy. Amer. Mineral, 80, 645–8.Google Scholar
Decker, D.L. (1971) High-pressure equation of state for NaCl, KC1, and CsCl. J. Appl Phys., 42, 3239–44.CrossRefGoogle Scholar
Eggert, J.H., Xu, L.W., Che, R.Z., Chen, L.C. and Wang, J.F. (1992) High-pressure refractive-index measurements of 4/1 methanol-ethanol. J. Appl. Phys., 72, 2453–61.CrossRefGoogle Scholar
Faust, J. and Knittle, E. (1994) The equation of state, amorphization, and high-pressure phase diagram of muscovite. J. Geophys. Res. —Solid Earth, 99, 19785–92.CrossRefGoogle Scholar
Guyot, F. and Reynard, B. (1992) Pressure-induced structural modifications and amorphization in olivine compounds. Chem. GeoL, 96, 411–20.CrossRefGoogle Scholar
Holland, H.D. and Gottfried, D. (1955) The effect of nuclear radiation on the structure of zircon. Acta Crystallogr., 8, 291300.CrossRefGoogle Scholar
Redfern, S.A.T. and Salje, E. (1987) Thermodynamics of plagioclase II: Temperature evolution of the spontaneous strain at the Il-Pl phase transition in anorthite. Phys. Chem. Mineral, 14, 189–95.CrossRefGoogle Scholar
Serghiou, G.C. and Hammack, W.S. (1993) Pressure- induced amorphization of wollastonite (CaSi03) at room-temperature. J. Chem. Phys., 98, 9830–34.CrossRefGoogle Scholar
Stoffler, D. and Hornemann, U. (1972) Quartz and feldspar glasses produced by natural and experimental shock. Meteoritics, 7, 371–94.CrossRefGoogle Scholar
Williams, Q. and Jeanloz, R. (1989) Static amorphization of anorthite at 300 K and comparison with diaplectic glass. Nature, 338, 413–5.CrossRefGoogle Scholar
Zhang, X. and Ong, C.K. (1993) Pressure-induced amorphization of p-cristobalite. Phys. Rev. BCondensed Matter, 48, 6865–70.CrossRefGoogle Scholar