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Temperature dependence of crystal structure of CaGeO3 high-pressure perovskite phase and experimental determination of its Debye temperatures studied by low- and hightemperature single-crystal X-ray diffraction

  • Akihiko Nakatsuka EMAIL logo , Shoichi Kuribayashi , Noriaki Nakayama , Hiroshi Fukui , Hiroshi Arima , Akira Yoneda and Akira Yoshiasa
Published/Copyright: May 12, 2015
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American Mineralogist
From the journal American Mineralogist Volume 100 Issue 5-6

Abstract

Single-crystal X-ray diffraction study of CaGeO3 perovskite has been conducted over the temperature range of 98 to 1048 K. The crystal begins to deteriorate at a temperature above about 900 K and completely amorphizes by 980 K. The diffraction-intensity distribution and the structure refinements indicate that the Pbnm structure is kept until the occurrence of amorphization. The obtained unit-cell parameters, unit-cell volumes, bond lengths, and displacement parameters increase monotonously with increasing temperature. Thus, no evidence for the existence of the Cmcm high-temperature phase, previously suggested above 520 K, is observed. The Ge-O bond lengths show much smaller thermal expansions than the Ca-O bond lengths; the former ranges between 0.42(2) × 10−5 K−1 and 0.57(2) × 10−5 K−1, and the latter between 1.58(4) × 10−5 K−1 and 3.96(6) × 10−5 K−1. The Debye temperatures and static disorder components for each constituent atom were determined by applying the Debye model to the temperature dependence of mean square displacements (MSDs) of the atoms. Consequently, no significant static disorder components can be detected in each atom. The Debye temperatures averaged over all directions, obtained from the Debye model fitting to Ueq, yield the harmonic one particle potential coefficients of 4.76(2) eVÅ−2 for Ca, 11.0(1) eVÅ−2 for Ge, 5.02(2) eVÅ−2 for O1, and 5.33(5) eVÅ−2 for O2. These values become larger in order of Ca < O1 < O2 << Ge, which shows that the one particle potential of Ge is much narrower than that of Ca. This relationship between Ca and Ge is consistent reasonably with bonding stiffness expected from the thermal expansion coefficients of the bond lengths. The anisotropies of MSDs are remarkable in O1 and O2 atoms as a consequence of the strong interaction with adjacent Ge atoms, forming the rigid bonds with these O atoms.

In comparison of the three Pbnm orthorhombic perovskites of CaGeO3, CaTiO3, and MgSiO3, all of these have the BO6 octahedra more rigid than the AO12 polyhedra (A = Ca or Mg; B = Ge, Ti, or Si) and the tilt angles of BO6 octahedra are the largest in MgSiO3 perovskite. These observations indicate that if MgSiO3 perovskite under high pressures undergoes the same sequence of the high-temperature phase transitions as CaTiO3 perovskite, the phase boundaries have positive Clapeyron slopes and the phase transition temperatures should become further much higher than those (1512 K for the Pbnm to I4/mcm transition and 1635 K for the I4/mcm to Pm3̅m transition) observed in CaTiO3 perovskite at ambient pressure. This leads to the conclusion that the high-temperature phase transition to a perovskite phase with different symmetry under high pressures previously suggested in MgSiO3 perovskite is unlikely.

Keywords: CaGeO3; perovskite; single-crystal X-ray diffraction; phase transition; thermal expansion; Debye temperature; one particle potential
Received: 2014-2-21
Accepted: 2014-11-8
Published Online: 2015-5-12
Published in Print: 2015-5-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am-2015-4945
Keywords for this article
CaGeO3; perovskite; single-crystal X-ray diffraction; phase transition; thermal expansion; Debye temperature; one particle potential

Articles in the same Issue

  1. Highlights and Breakthroughs. Reaction pathways toward the formation of dolomite
  2. Highlights and Breakthroughs. Zircon dissolution and growth during metamorphism
  3. Review Paper. Linear partitioning in binary solutions: A review with a novel partitioning array
  4. Presidential Address. The many facets of apatite
  5. Thermal expansion of F-Cl apatite crystalline solutions
  6. Pieczkaite, ideally Mn5(PO4)3Cl, a new apatite-supergroup mineral from Cross Lake, Manitoba, Canada: Description and crystal structure
  7. First-principles prediction of pressure-enhanced defect segregation and migration at MgO grain boundaries
  8. Optical properties of siderite (FeCO3) across the spin transition: Crossover to iron-rich carbonates in the lower mantle
  9. Calculation of the energetics of water incorporation in majorite garnet
  10. Influence of hydration on 23Na, 27Al, and 29Si MAS-NMR spectra of sodium saponites and sodium micas
  11. Quantification of water in majoritic garnet
  12. How to make a planet: An introduction
  13. Modeling siderophile elements during core formation and accretion, and the role of the deep mantle and volatiles
  14. Optical constants of synthetic potassium, sodium, and hydronium jarosite
  15. A photoluminescence study of REE3+ emissions in radiation-damaged zircon
  16. Hydrothermal chloritization processes from biotite in the Toki granite, Central Japan: Temporal variations of of the compositions of hydrothermal fluids associated with chloritization
  17. Fayalite oxidation processes in Obsidian Cliffs rhyolite flow, Oregon
  18. Effect of pores and grain size on the elastic and piezoelectric properties of quartz-based materials
  19. A route for the direct crystallization of dolomite
  20. Very large differences in intramolecular D-H partitioning in hydrated silicate melts synthesized at upper mantle pressures and temperatures
  21. Temperature dependence of crystal structure of CaGeO3 high-pressure perovskite phase and experimental determination of its Debye temperatures studied by low- and hightemperature single-crystal X-ray diffraction
  22. Insights into the structure of mixed CO2/CH4 in gas hydrates
  23. Hydrous species in feldspars: A reassessment based on FTIR and SIMS
  24. An insight into the inverse transformation of realgar altered by light
  25. First evidence of CaCO3-III and CaCO3-IIIb high-pressure polymorphs of calcite: Authigenically formed in near surface sediments
  26. Surface transformations of platinum grains from Fifield, New South Wales, Australia
  27. Cation exchange capacity and water content of opal in sedimentary basins: Example from the Monterey Formation, California
  28. Impact of preparation method and chemical composition on physicochemical and photocatalytic properties of nano-dimensional magnetite-type materials
  29. Transition metal cation site preferences in forsterite (Mg2SiO4) determined from paramagnetically shifted NMR resonances
  30. Review. Routine characterization and interpretation of complex alkali feldspar intergrowths
  31. Letter. Experimental confirmation of high-temperature silicate liquid immiscibility in multicomponent ferrobasaltic systems
  32. Letter. Discovery of stishovite in Apollo 15299 sample
  33. Presentation of the 2014 Roebling Medal of the Mineralogical Society of America to Bernard J. Wood
  34. Acceptance of the 2014 Roebling Medal of the Mineralogical Society of America
  35. Presentation of the Dana Medal of the Mineralogical Society of America for 2015 to Marc Hirschmann
  36. Acceptance of the Dana Medal of the Mineralogical Society of America for 2015
  37. Presentation of the Mineralogical Society of America Award for 2014 to Fang-Zhen Teng
  38. Acceptance of the Mineralogical Society of America Award for 2014
  39. New Mineral Names
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