Vibrational spectroscopy of aluminate spinels at 1 atm and of MgAl2O4 to over 200 kbar (original) (raw)
- Andermann G, Caron A, Dows D (1965) Kramers-Kronig dispersion analysis of infrared reflectance bands. J Opt Soc Am 55:1210–1216
Google Scholar - Boehler R, Chopelas A (1991) A new approach to laser heating in high pressure mineral physics. Geophys Res Lett 18:1147–1150
Google Scholar - Brout R (1959) Sum rule for lattice vibrations in ionic crystals. Phys Rev 113:43–44
Google Scholar - Burdick L, Anderson DL (1975) Interpretation of velocity profiles of the mantle. J Geophys Res 80:1070–1074
Google Scholar - Chang ZP, Barsch GR (1973) Pressure dependence of single-crystal elastic constants and anharmonic properties of spinel. J Geophys Res 78:2418–2433
Google Scholar - Chopelas A (1988a) Thermodynamic parameters of mantle minerals from optical spectra at high pressures 2nd Int'l Symposium on Experimental Mineralogy, Petrology, and Geochemistry, (abstract) Terra Cognita 8:59
Google Scholar - Chopelas A (1988b) Second order phase transition in pyroxene? Implications for the upper mantle (abstract). Trans Am Geophys Union 69:472
Google Scholar - Chopelas A (1990a) Thermal properties of solids at high pressures from vibrational spectroscopy: MgO and MgAl2O4. High Pressure Res 5:711–713
Google Scholar - Chopelas A (1990b) Thermal expansion, heat capacity, and entropy of MgO at mantle pressures. Phys Chem Minerals 17:142–148
Google Scholar - Chopelas A (1990c) Thermal properties of forsterite at mantle pressures derived from vibrational spectroscopy. Phys Chem Minerals 17:149–156
Google Scholar - Chopelas A (1991) Thermal properties of β-spinel at mantle pressures derived from vibrational spectroscopy: Implications for the mantle at 400 km depth. J Geophys Res 96:11817–11829
Google Scholar - Chopelas A, Boehler R (1984) MgO:V2+ pressure scale for diamond anvil cells. Material Res Soc Symp Proc 22:275–278
Google Scholar - Chopelas A, Boehler R (1991) Raman spectroscopy of high pressure MgSiO3 phases synthesized in a CO2 laser heated diamond anvil cell: perovskite and clinopyroxene. Proc US-Japan Seminar, Ise, Japan, January 1991
- Chopelas A, Nicol MF (1982) Pressure dependence to 100 kbar of the phonons of MgO at 90 and 295 K. J Geophys Res 94:8591–8597
Google Scholar - Farmer VC, Lazarev AN (1974) Symmetry and crystal vibrations. In: Farmer VC (ed) The Infrared Spectra of Minerals Mineralogical Society is the publisher. London, pp 51–68
- Fateley WG, McDevitt NT, Bently FF (1971) Infrared and Raman selection rules for lattice vibrations: the correlation method. Appl Spectrosc 25:155–174
Google Scholar - Finger LW, Hazen RM, Yagi T (1979) Crystal structures and electron densities of nickel and iron silicate spinels at elevated temperature or pressure. Am Mineral 64:1002–1009
Google Scholar - Finger LW, Hazen RM, Hofmeister AM (1986) High pressure crystal chemistry of spinel (MgAl2O4) and Magnetite (Fe3O4): comparisons of silicate spinels. Phys Chem Minerals 13:215–220
Google Scholar - Fraas LM, Moore JE, Salzberg JB (1973) Raman characterization studies of synthetic and natural MgAl2O4 crystals. J Chem Phys 58:3585–3592
Google Scholar - Gervais F, Piriou B (1974) Anharmonicity in several polar mode crystals: adjusting phonon self energy of LO and TO modes in Al2O3 and TiO2 to fit infrared reflectivity. J Phys C 7:2374–2386
Google Scholar - Hofmeister AM (1987) Single-crystal absorption and reflection infrared spectroscopy of forsterite and fayalite. Phys Chem Minerals 14:499–513
Google Scholar - Hofmeister AM (1991) Calculation of bulk modulus and its pressure derivative from vibrational frequencies and mode Grüneisen parameters: solids with cubic symmetry or one-nearest neighbor distance. J Geophys Res 96:16181–16203
Google Scholar - Hofmeister AM, Chopelas A (1991) Vibrational spectroscopy of end member garnets. Phys Chem Minerals 17:503–526
Google Scholar - Hofmeister AM, Mao HK, Bell PM (1986) Spectroscopic determination of thermodynamic properties of γ-Fe2SiO4 at mantle pressures (abstract). Trans Am Geophys Union 67:395
Google Scholar - Hofmeister AM, Xu J, Mao H-K, Bell PM, Hoering TC (1989) Thermodynamics of Fe-Mg olivines at mantle pressures: Mid- and far-infrared spectroscopy at high pressure. Am Mineral 74:281–306
Google Scholar - Irifune T (1986) An experimental investigation of the pyroxene-garnet transformation in a pyrolite composition and its bearing on the composition of the mantle. Phys Earth Planet Inter 45:324–336
Google Scholar - Irifune T, Fujino K, Ohtani E (1991) Phase transitions in MgAl2O4 spinel at pressures up to 28 GPa. Proc of US-Japan Conf, Ise, Japan
- Ishii M, Hiraishi J, Yamanaka T (1982) Structure and lattice vibrations of Mg -Al spinel solid solution. Phys Chem Minerals 8:64–68
Google Scholar - Mao H-K, Xu J, Bell PM (1986) Calibration of the ruby pressure gauge to 800 kbar under quasi-hydrostatic conditions. J Geophys Res 91:4673–4676
Google Scholar - McMillan PM, Hofmeister AM (1988) Infrared and Raman spectroscopy. In: Hawthorne FC (ed) Spectroscopic Methods in Mineralogy and Geology. Rev Mineral 18: 99–160
- O'Horo MP, Frisillo AL, White WB (1973) Lattice vibrations of MgAl2O4 spinel. J Phys Chem Solids 34:23–28
Google Scholar - Porto SPS, Krishnan RS (1967) Raman effect of corundum. J Chem Phys 47:1009–1012
Google Scholar - Preudhomme J, Tarte P (1971) Infrared studies of spinels III. The normal II–III spinels. Spectrochim Acta 27A:1817–1835
Google Scholar - Preudhomme J, Tarte P (1972) Infrared studies of spinels IV. Normal spinels with a high valency tetrahedral cation. Spectrochim Acta 28A:66–79
Google Scholar - Rigden SM, Jackson I, Niesler H, Ringwood AE, Liebermann RC (1988) Pressure dependence of the elastic wave velocities for Mg2GeO4 spinel to 3 GPa. Geophys Res Lett 15:605–608
Google Scholar - Ringwood AE, Reid AF (1969) High pressure transformation of spinels, 1. Earth Planet Sci Lett 5:245–250
Google Scholar - Scott JF, Porto SPS (1967) Longitudinal and transverse optical lattice vibrations in quartz. Phys Rev 161:903–910
Google Scholar - Spitzer WG, Miller RC, Kleinman DA, Howarth LE (1962) Far-infrared dielectric dispersion in BaTiO3, SrTiO3, and TiO2. Phys Rev 126:1710–1721
Google Scholar - Suzuki I, Kumazawa M (1980) Anomalous thermal expansion in spinel MgAl2O4. A possibility for a second order phase transition? Phys Chem Minerals 5:279–284
Google Scholar - Thompson P, Grimes NW (1978) Observation of low energy phonons in spinel. Solid State Commun 25:609–611
Google Scholar - Wood DL, Imbusch GF, Macfarlane RM, Kisliuk P, Larkin DM (1968) Optical spectrum of Cr3+ ions in spinels. J Chem Phys 48:5255–5263
Google Scholar - Wood BJ, Kirkpatrick RJ, Montez B (1986) Order-disorder phenomena in MgAl2O4 spinel. Am Mineral 71:999–1006
Google Scholar - Wooten F (1972) Optical Properties of Solids. Academic Press, New York, p 260
Google Scholar - Yamanaka T, Takeuchi Y, Tokonami M (1984) Anharmonic thermal vibrations of atoms in MgAl2O4 at temperatures up to 1933 K. Acta Crystallogr B40:96–102
Google Scholar - Yoneda A (1990) Pressure derivatives of elastic constants of single crystal MgO and MgAl2O4. J Phys Earth 38:19–55
Google Scholar