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High-pressure Al-rich hexagonal phases—What are their kin?
-
E. Makovicky
and
L. Arnskov Olsen
Published/Copyright:
April 1, 2015
Abstract
The hexagonal Al-rich high-pressure phases are members of a structural family with the same type of framework composed of double-ribbons of edge-sharing octahedra, but variably occupied trigonal and hexagonal channels. This family includes jaffeite, fluoborite, yeremeyevite, painite, and synthetic Ba indates. This kinship broadens the spectrum of elements potentially accommodated by these phases in the mantle.
Received: 2007-11-14
Accepted: 2008-4-8
Published Online: 2015-4-1
Published in Print: 2008-10-1
© 2015 by Walter de Gruyter Berlin/Boston
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Keywords for this article
Al-rich high-pressure phases;
jaffeite;
fluoborite;
painite;
framework of octahedra
Articles in the same Issue
- Amorphous materials: Properties, structure, and durability: Atomic structure and transport properties of MgO-Al2O3 melts: A molecular dynamics simulation study
- Amorphous Materials: Properties, structure, and durability: Oxidation state of iron in hydrous phono-tephritic melts
- Amorphous materials: Properties, structure, and durability: Quantitative Raman spectroscopy: Speciation of Na-silicate glasses and melts
- Dissolution-reprecipitation of zircon at low-temperature, high-pressure conditions (Lanzo Massif, Italy)
- High-pressure behavior of gypsum: A single-crystal X-ray study
- Presence and zoning of hydrous components in leucite from the Alban Hills volcano, Rome, Italy
- Herderite from Mogok, Myanmar, and comparison with hydroxyl-herderite from Ehrenfriedersdorf, Germany
- Application of Raman spectroscopy to quantify trace water concentrations in glasses and garnets
- Neutron diffraction study of δ-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond
- A simple predictive model for the thermal expansion of AlSi3 feldspars
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- Leucite at high pressure: Elastic behavior, phase stability, and petrological implications
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- Demicheleite, BiSBr, a new mineral from La Fossa crater, Vulcano, Aeolian Islands, Italy
- A lattice dynamical study of the aragonite and post-aragonite phases of calcium carbonate rock
- Water in natural olivine—determined by proton-proton scattering analysis
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- Raman spectroscopy of CaIrO3 postperovskite up to 30 GPa
- The thermal behavior of richterite
- The crystal structure of kelyanite, (Hg2)6(SbO6)BrCl2
- Comparison of crystallographic orientations between living (Emiliania huxleyi and Gephyrocapsa oceanica) and fossil (Watznaueria barnesiae) coccoliths using electron microscopes
- Letter. Iron partitioning between perovskite and post-perovskite: A transmission electron microscope study
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