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Optical spectroscopic study of natural Fe-rich Pizzo Forno staurolite at different temperatures and pressures

  • Michail N. Taran EMAIL logo and Monika Koch-Müller
Published/Copyright: April 2, 2015
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American Mineralogist
From the journal American Mineralogist Volume 95 Issue 2-3

Abstract

Polarized spectra of natural brownish-yellow Fe-rich staurolite from Pizzo Forno (Switzerland) evidence that its color is very likely due to an intervalence charge-transfer transition between Fe2+ and Ti4+ that causes a broad absorption band at ca. 25 400 cm-1 superimposed on an intense high-energy edge. The polarization properties of the band and, also, the visible pleochroism γ > α >> β of the sample studied, which is found to be different to previously published data viz. γ > β >> α, does not unambiguously give evidence of the structural positions of Ti4+ ions involved in the IVCT process. In the NIR-range, we observe a broad structured absorption envelope caused by an electronic spinallowed band of IVFe2+ containing three broad components at around 5445, 4625, and 3800 cm-1 and strong narrow β- and γ-polarized lines of OH-vibrations in the range 3600 to 3400 cm-1. Curve-fitting analysis suggests that the three crystal field bands are due to lowering of the local symmetry of the tetrahedral Fe2+ from Td to ca. C2v, so they are assigned to the split electronic 5E → 5T2 transition of IVFe2+. Noticeable differences in the temperature- and pressure-induced effects on the spin-allowed bands of IVFe2+ in staurolite compared to spinel-another IVFe2+-bearing mineral-are observed. This implies a suppression of the Jahn-Teller effect in staurolite that is normally intrinsic to ions with doublefold degenerate electronic ground state such as IVFe2+.

Keywords: Staurolite; optical absorption spectra; IVCT; dd-transitions; temperature and pressure effect
Received: 2009-2-2
Accepted: 2009-10-6
Published Online: 2015-4-2
Published in Print: 2010-2-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am.2010.3207
Keywords for this article
Staurolite; optical absorption spectra; IVCT; dd-transitions; temperature and pressure effect

Articles in the same Issue

  1. Brownleeite: A new manganese silicide mineral in an interplanetary dust particle
  2. Simulation of thermodynamic mixing properties of actinide-containing zircon solid solutions
  3. Multilevel modular mesocrystalline organization in red coral
  4. High-pressure behavior of 2M1 muscovite
  5. Chopinite-sarcopside solid solution, [(Mg,Fe)3□](PO4)2, in GRA95209, a transitional acapulcoite: Implications for phosphate genesis in meteorites
  6. Distribution of rare earth elements in lunar zircon
  7. Methodological re-evaluation of the electrical conductivity of silicate melts
  8. Site-specific infrared O-H absorption coefficients for water substitution into olivine
  9. High-pressure phase transition of a natural pigeonite
  10. Location and quantification of hydroxyl in wadsleyite: New insights
  11. Optical spectroscopic study of natural Fe-rich Pizzo Forno staurolite at different temperatures and pressures
  12. Metasideronatrite: Crystal structure and its relation with sideronatrite
  13. Optical absorption, luminescence, and electron paramagnetic resonance (EPR) spectroscopy of crystalline to metamict zircon: Evidence for formation of uranyl, manganese, and other optically active centers
  14. Factors responsible for crystal-chemical variations in the solid solutions from illite to aluminoceladonite and from glauconite to celadonite
  15. REE diffusion in olivine
  16. Phase transition induced by solid solution: The BCa-BMg substitution in richteritic amphiboles
  17. Aiolosite, Na2(Na2Bi)(SO4)3Cl, a new sulfate isotypic to apatite from La Fossa Crater, Vulcano, Aeolian Islands, Italy
  18. Gayite, a new dufrénite-group mineral from the Gigante granitic pegmatite, Córdoba province, Argentina
  19. Galliskiite, Ca4Al2(PO4)2F8·5H2O, a new mineral from the Gigante granitic pegmatite, Córdoba province, Argentina
  20. Description and crystal structure of liversidgeite, Zn6(PO4)4·7H2O, a new mineral from Broken Hill, New South Wales, Australia
  21. Evidence of dmisteinbergite (hexagonal form of CaAl2Si2O8) in pseudotachylyte: A tool to constrain the thermal history of a seismic event
  22. Partitioning of Eu between augite and a highly spiked martian basalt composition as a function of oxygen fugacity (IW-1 to QFM): Determination of Eu2+/Eu3+ ratios by XANES
  23. Density functional calculation of the infrared spectrum of surface hydroxyl groups on goethite (α-FeOOH)
  24. X-ray diffraction and Mössbauer spectroscopy of Fe3+-bearing Mg-silicate post-perovskite at 128–138 GPa
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