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Ohira, Itaru, Jackson, Jennifer M., Solomatova, Natalia V., Sturhahn, Wolfgang, Finkelstein, Gregory J., Kamada, Seiji, Kawazoe, Takaaki, Maeda, Fumiya, Hirao, Naohisa, Nakano, Satoshi, Toellner, Thomas S., Suzuki, Akio, Ohtani, Eiji (2019) Compressional behavior and spin state of δ-(Al,Fe)OOH at high pressures. American Mineralogist, 104 (9) 1273-1284 doi:10.2138/am-2019-6913

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Reference TypeJournal (article/letter/editorial)
TitleCompressional behavior and spin state of δ-(Al,Fe)OOH at high pressures
JournalAmerican Mineralogist
AuthorsOhira, ItaruAuthor
Jackson, Jennifer M.Author
Solomatova, Natalia V.Author
Sturhahn, WolfgangAuthor
Finkelstein, Gregory J.Author
Kamada, SeijiAuthor
Kawazoe, TakaakiAuthor
Maeda, FumiyaAuthor
Hirao, NaohisaAuthor
Nakano, SatoshiAuthor
Toellner, Thomas S.Author
Suzuki, AkioAuthor
Ohtani, EijiAuthor
Year2019 (September 1)Volume104
Issue9
PublisherMineralogical Society of America
DOIdoi:10.2138/am-2019-6913Search in ResearchGate
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Mindat Ref. ID398860Long-form Identifiermindat:1:5:398860:6
GUID0
Full ReferenceOhira, Itaru, Jackson, Jennifer M., Solomatova, Natalia V., Sturhahn, Wolfgang, Finkelstein, Gregory J., Kamada, Seiji, Kawazoe, Takaaki, Maeda, Fumiya, Hirao, Naohisa, Nakano, Satoshi, Toellner, Thomas S., Suzuki, Akio, Ohtani, Eiji (2019) Compressional behavior and spin state of δ-(Al,Fe)OOH at high pressures. American Mineralogist, 104 (9) 1273-1284 doi:10.2138/am-2019-6913
Plain TextOhira, Itaru, Jackson, Jennifer M., Solomatova, Natalia V., Sturhahn, Wolfgang, Finkelstein, Gregory J., Kamada, Seiji, Kawazoe, Takaaki, Maeda, Fumiya, Hirao, Naohisa, Nakano, Satoshi, Toellner, Thomas S., Suzuki, Akio, Ohtani, Eiji (2019) Compressional behavior and spin state of δ-(Al,Fe)OOH at high pressures. American Mineralogist, 104 (9) 1273-1284 doi:10.2138/am-2019-6913
In(2019, September) American Mineralogist Vol. 104 (9) Mineralogical Society of America
Abstract/NotesAbstract
Hydrogen transport from the surface to the deep interior and distribution in the mantle are important in the evolution and dynamics of the Earth. An aluminum oxy-hydroxide, δ-AlOOH, might influence hydrogen transport in the deep mantle because of its high stability extending to lower mantle conditions. The compressional behavior and spin states of δ-(Al,Fe3+)OOH phases were investigated with synchrotron X-ray diffraction and Mössbauer spectroscopy under high pressure and room temperature. Pressure-volume (P-V) profiles of the δ-(Al0.908(9)57Fe0.045(1))OOH1.14(3) [Fe/(Al+Fe) = 0.047(10), δ-Fe5] and the δ-(Al0.832(5)57Fe0.117(1))OOH1.15(3) [Fe/(Al+Fe) = 0.123(2), δ-Fe12] show that these hydrous phases undergo two distinct structural transitions involving changes in hydrogen bonding environments and a high- to low-spin crossover in Fe3+. A change of axial compressibility accompanied by a transition from an ordered (P21nm) to disordered hydrogen bond (Pnnm) occurs near 10 GPa for both δ-Fe5 and δ-Fe12 samples. Through this transition, the crystallographic a and b axes become stiffer, whereas the c axis does not show such a change, as observed in pure δ-AlOOH. A volume collapse due to a transition from high- to low-spin states in the Fe3+ ions is complete below 32–40 GPa in δ-Fe5 and δ-Fe12, which i ~10 GPa lower than that reported for pure ε-FeOOH. Evaluation of the Mössbauer spectra of δ-(Al0.824(10)57Fe0.126(4))OOH1.15(4) [Fe/(Al+Fe) = 0.133(3), δ-Fe13] also indicate a spin transition between 32–45 GPa. Phases in the δ-(Al,Fe)OOH solid solution with similar iron concentrations as those studied here could cause an anomalously high ρ/νΦ ratio (bulk sound velocity, defined as K/ρ at depths corresponding to the spin crossover region (~900 to ~1000 km depth), whereas outside the spin crossover region a low ρ/νΦ anomaly would be expected. These results suggest that the δ-(Al,Fe)OOH solid solution may play an important role in understanding the heterogeneous structure of the deep Earth.

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Kawazoe, Takaaki, Ohira, Itaru, Ishii, Takayuki, Ballaran, Tiziana Boffa, McCammon, Catherine, Suzuki, Akio, Ohtani, Eiji (2017) Single crystal synthesis of δ-(Al,Fe)OOH. American Mineralogist, 102 (9) 1953-1956 doi:10.2138/am-2017-6153
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