Cation ordering in iridescent garnet from Tenkawa village, Nara prefecture, Japan

Nakamura, Yurie; Kuribayashi, Takahiro; Nagase, Toshiro; Imai, Hiroyuki

doi:10.2465/jmps.161114a

Journal of Mineralogical and Petrological Sciences

2017

DOI: 10.2465/jmps.161114a

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Cation ordering in iridescent garnet from Tenkawa village, Nara prefecture, Japan

Yurie Nakamura

Takahiro Kuribayashi

Toshiro Nagase

et al.

Abstract: The crystal structure of iridescent garnet from Tenkawa village, Nara prefecture, Japan was investigated by means of Single-crystal X-ray diffraction method. The garnet crystal is composed of {110} c and {211} c growth sectors and shows birefringence under the crossed polarizer. The BSE image of the cross section shows very fine lamellae texture consisting of andradite-rich and grossular-rich layers. The average chemical composition was determined as Ca 3.01 (Fe 1.93 Al 0.09 ) Σ2.02 Si 2.99 O 12 . The unit-cel… Show more

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Cation ordering, twinning, and pseudo-symmetry in silicate garnet: The study of a birefringent garnet with orthorhombic structure

Jin

Lee

et al. 2023

American Mineralogist

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The crystal structure of a birefringent garnet (~Adr53Grs47) that occurs as a late-stage rim on andradite from Stanley Butte, Graham County, Arizona is analyzed and refined using single-crystal XRD. The structure has an orthorhombic I 2/a 1 2/d (unconventional setting for Fddd) space group symmetry, with unit-cell parameters of a = b = 11.966(3) Å, c = 11.964(3) Å, α = β = 90°, γ = 90.29(2)°, V = 1713.0(7) Å3, Z = 8. The orthorhombic garnet displays very high birefringence (δ ~0.021) produced by the strong Fe-Al ordering in the octahedral sites, with Fe occupancies of 0.804 and 0.221 in Y1 and Y2 sites, respectively. Diffraction peaks (such as 101 and 103) violating the Ia3d symmetry of cubic garnet are obvious even in powder XRD pattern. The homogenization temperatures of the fluid inclusions suggest that the low-crystallization temperature is responsible for the ordered orthorhombic structure. The strong ordering state of the structure and the sharp boundaries in the chemical zoning in the crystal (between ~Adr53Grs47 and ~Adr100) indicate the orthorhombic intermediate grandite garnet is a thermodynamically stable phase at low temperature, separated by wide miscibility gaps from the pure end-members (grossular and andradite) with cubic structures. Most of the previously reported triclinic garnet structures are likely artifacts produced by pseudo-merohedral twinning of less-ordered orthorhombic structure, as indicated by the characteristic pairing pattern of different Y-sites with the same occupancies.

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Cation ordering, twinning, and pseudo-symmetry in silicate garnet: The study of a birefringent garnet with orthorhombic structure

Jin

Lee

et al. 2023

American Mineralogist

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Crystallographic Analyses for Textures and Growth Processes of Minerals

Nagase

2018

Journal of the Crystallographic Society of Japan

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Cation ordering in iridescent garnet from Tenkawa village, Nara prefecture, Japan

Cited by 2 publications

References 11 publications

Cation ordering, twinning, and pseudo-symmetry in silicate garnet: The study of a birefringent garnet with orthorhombic structure

Cation ordering, twinning, and pseudo-symmetry in silicate garnet: The study of a birefringent garnet with orthorhombic structure

Crystallographic Analyses for Textures and Growth Processes of Minerals

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