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Chromian omphacite from low-grade metamorphic rocks, Nishisonogi, Kyushu, Japan (1986)

NISHIYAMA, T. ; UEHARA, S. ; SHINNO, I.

Oxford, UK : Blackwell Publishing Ltd

Journal of metamorphic geology 4 (1986), S. 0

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ISSN: 1525-1314

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: Abstract Chromian omphacite which contains up to 4 wt % Cr2O3 has been identified from low-grade metamorphic rocks in Nishisonogi, Kyushu, Japan. It occurs as aggregates, forming a thin horizon ([20 mm thick) in alayered metagabbro within a serpentinite melange zone, together with Cr-free omphacite, actino-lite, epidote and sphene. It may have been formed by the metasomatic introduction of Cr into the metagabbro from the serpentinite rather than by reaction with chromite. The structural formula, based on EPMA analyses, and the optical absorption spectrum of the chromian omphacite show that the Cr is positioned in the octahedral site.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1525-1314.1986.tb00338.x

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Two- and three-wavelength laser multiphoton ionization for highly sensitive detection in solution

Yamada, S. ; Shinno, I.

Amsterdam : Elsevier

Talanta 36 (1989), S. 937-940

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ISSN: 0039-9140

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0039-9140(89)80033-5

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57Fe Mössbauer study of pumpellyiteokhotskite-julgoldite series minerals (1997)

Akasaka, M. ; Kimura, Y. ; Omori, Y. ; [et al.]

Springer

Mineralogy and petrology 61 (1997), S. 181-198

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ISSN: 1438-1168

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Description / Table of Contents: Zusammenfassung Die Fe- und Mn-Verteilung in Mineralen der Pumpellyit-Gruppe (W 8 X 4 Y 8 Z 12O56-n (OH)n) wurde mittels Mössbauer-Spektroskopie studiert. Die untersuchten Fe-Pumpellyite der Pumpellyit-Julgoldit-Serie stammen von zwei verschiedenen japanischen Lokalitäten: von Metabasiten des Tokoro-Gürtels, Hokkaido, und von Gabbro-Sills der Shimane Halbinsel. Okhotskit, ein Mn3+-dominiertes Mineral der Pumpellyit-Gruppe, wurde aus Erzen einer Mn-führenden Eisenerzlagerstätte des Tokoro-Gürtels separiert. Das57Fe Mössbauer-Spektrum der Tokoro Fe-Pumpellyite zeigt zwei Fe2+- und zwei Fe3+-Doubletten. Auf Grund bisher publizierter verfeinerter Einkristall-Strukturuntersuchungen von Al-Pumpellyiten werden diese Doubletten folgendermaßen zugeordnet: Fe W 2+ (IS = 1.01 undQS = 2.73 mm/s), Fe X 2+ (IS = 0.97 undQS = 3.18 mm/s), Fe X 3+ (IS = 0.29 undQS =1.37 mm/s) und Fe Y 3+ (IS = 0.36 undQS = 2.09 mm/s).IS bezeichnet dabei die Isomer-Shift relativ zu einem metallischen Eisenabsorbenten,QS das Quadrupole-Splitting. Diese Zuordnungen belegen den bevorzugten Einbau von Fe3+ in die X-Position. Das Mössbauer-Spektrum von Okhotskit zeigt zwei Doubletten bei Fe X 3+ (IS = 0.37 undQS = 1.13 mm/s) und Fe Y 3+ (IS = 0.42 undQS = 2.18 mm/s). Das Flächenverhältnis zeigt, daß das Verhältnis Fe X 3+ :Fe Y 3+ 94:6 ist. Auf Grund der chemischen und der Mössbauer-Analysen wird das Mn X 3+ :Mn Y 3+ Verhältnis mit 19:81 angegeben. Mn3+ zeigt somit eine stärkere Präferenz für die Y-Position als Fe3+, ein Resultat, das mit der Jahn-Teller-Theorie konsistent ist. Der bevorzugte Einbau in die Y-Position ist, in dieser Reihenfolge, Al〉Mn3+〉Fe3+.

Notes: Summary Fe and Mn distribution in the pumpellyite group minerals (W 8 X 4 Y 8 Z 12056-n (OH) n ) has been studied by using57Fe Mössbauer spectroscopy. The studied Fe-pumpellyites, belonging to the pumpellyite-julgoldite series, were collected from two localities; metabasites in the Tokoro belt, Hokkaido, and gabbroic sills in the Shimane Peninsula, Japan. Okhotskite, an Mn3+-dominant pumpellyite group mineral, was separated from the ores of metamorphosed manganiferous iron ore deposits in the Tokoro belt.57Fe Mössbauer spectrum of Tokoro Fe-pumpellyite is composed of two Fe2+- and two Fe3+-doublets. On the basis of the single crystal structure refinements of Al-pumpellyites published so far, doublets were assigned to Fe W 2+ (IS= 1.01 andQS = 2.73 mm/s), Fe X 2+ (IS = 0.97 andQS = 3.18 mm/s), Fe X 3+ (IS = 0.29 andQS =1.37 mm/s) and Fe Y 3+ (IS = 0.36 andQS = 2.09 mm/s), whereIS is isomer shift relative to a metallic iron absorber andQS is quadrupole splitting. The Mössbauer spectrum of the Mitsu Fepumpellyite is composed of three doublets assigned to Fe X 2+ (IS= 1.14 andQS = 3.20 mm/s), Fe X 3+ (IS = 0.36 andQS =1.13 mm/s) and Fe Y 3+ (IS = 0.37 andQS= 1.93 mm/s). These assignments show strong preference of Fe3+ in the X-site. The Mössbauer spectrum of the okhotskite is composed of two doublets by Fe X 3+ (IS= 0.37 andQS = 1.13 mm/s) and Fe Y 3+ (IS = 0.42 andQS = 2.18 mm/s). The area ratio shows that Fe X 3+ :Fe Y 3+ ratio is 94:6. On the basis of chemical and Mössbauer analyses, Mn X 3+ :Mn Y 3+ ratio is given as 19:81, indicating stronger Y-site preference of Mn3+ than Fe3+, what is consistent with Jahn-Teller theory. Al, Mn3+ and Fe3+ prefer the Y-site in this order.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01172483

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A Mössbauer study of ferric iron in olivine (1981)

Shinno, I.

Springer

Physics and chemistry of minerals 7 (1981), S. 91-95

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ISSN: 1432-2021

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Geosciences , Physics

Notes: Abstract Natural and synthetic olivines with ferrous and ferric iron have been studied by Mössbauer spectroscopy. Their spectra exhibit three superimposed quadrupole-split doublets corresponding to Fe2+ at M1 and M2 sites and Fe3+ at an unidentified position, which is probably M2. The hyperfine parameters of Fe3+ at temperatures between 300°C and 450°C are: Δ=0.67–1.23 mm/s, δ=0.04–0.23 mm/s relative to metallic iron, and the full width at half height, HW=0.15–0.43 mm/s. The Fe2+ populations of M2 decrease with increasing Fe3+ content. However, Fe2+ prefers M1 in synthetic olivines, even at high temperatures (800°–1,400°C). In kirschsteinite, Fe2+ and Fe3+ are exclusively in M1. Fe2+/Fe3+ ratios estimated from the peak areas are consistent with chemical analyses.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00309458

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