SEARCH

SEARCH BY CITATION

References

  • Benstock E. J., Buseck P. R., and Steele I. M. 1997. Cathodoluminescence of meteoritic and synthetic forsterite at 296 and 77 K using TEM. American Mineralogist 82:310315.
  • Bonal L., Quirico E., Bourot-Denise M., and Montagnac G. 2006. Determination of the petrologic type of CV3 chondrites by Raman spectroscopy of included organic matter. Geochimica and Cosmochimica Acta 70:18491863.
  • Buseck P. R. and Self P. 1992. Electron energy loss spectroscopy (EELS) and electron channeling (ALCHEMI). Mineralogical Society of America Reviews in Mineralogy 27:141180.
  • Choi B.-G., Krot A. N., and Wasson J. T. 2000. Oxygen isotopes in magnetite and fayalite in CV chondrites Kaba and Mokoia. Meteoritics & Planetary Science 33:10651085.
  • Finch A. A. and Klein J. 1999. The causes and petrological significance of cathodoluminescence emissions from alkali feldspar. Contributions to Mineralogy and Petrology 135:234243.
  • Götze J., Plötze M., Fuchs H., and Habermann D. 1999. Defect structure and luminescence behaviour of agate—Results of electron paramagnetic resonance (EPR) and cathodoluminescence (CL) studies. Mineralogical Magazine 63:149163.
  • Green G. R. and Walker G. 1985. Luminescence excitation spectra of Mn2+ in synthetic forsterite. Minerals Physics and Chemistry of Minerals 12:271278.
  • Gucsik A., Endo T., Nakazato E., Nishido H., Ninagawa K., Kayama M., Bérczi S., Nagy S., Ábrahám P., Kimura Y., Gyollai I., Simonia I., Rózsa P., Posta J., Nagy M., Mihályi K., Apai D., and Futó P. 2011. Cathodoluminescence characterization of the forsterite in Kaba meteorite: An astromineralogical application (abstract #1157). 42nd Lunar and Planetary Science Conference. CD-ROM.
  • Gucsik A., Tsukamoto T., Kimura Y., Miura H., Nishido H., Kayama M., Ninagawa K., and Endo T. 2012. Cathodoluminescence microcharacterization of the experimentally grown of forsterite chondrule produced under super cooling. Journal of Luminescence 132:10411047.
  • Hezel D. C. and Kießwetter R. 2010. Quantifying the error of 2D bulk chondrule analyses using a computer model to simulate chondrules (SIMCHON). Meteoritics & Planetary Science 45:555571.
  • Hezel D. C., Russell S. S., Ross A. J., and Kearsley A. T. 2008. Modal abundances of CAIs: Implications for bulk chondrite element abundances and fractionations. Meteoritics & Planetary Science 43:18791894.
  • Hua X. and Buseck P. R. 1995. Fayalite in the Kaba and Mokoia carbonaceous chondrites. Geochimica et Cosmochimica Acta 59:563578.
  • Hua X. and Buseck P. R. 1998. Fayalitic halos around inclusions in forsterites from carbonaceous chondrites. Geochimica et Cosmochimica Acta 62:14431458.
  • Hua X., Huss G. R., Tachibana S., and Sharp T. G. 2005. Oxygen, silicon, and Mn-Cr isotopes of fayalite in the Kaba oxidized CV3 chondrite: Constraints for its formation history. Geochimica et Cosmochimica Acta 69:13331348.
  • Jones R. H. and Carey E. R. 2006. Identification of relict forsterite grains in forsterite-rich chondrules from the Mokoia CV3 carbonaceous chondrite. American Mineralogist 91:16641674.
  • Kayama M., Nakano S., and Nishido H. 2010. Characteristics of emission centers in alkali feldspar: A new approach by using cathodoluminescence spectral deconvolution. American Mineralogist 95:17831795.
  • Keller L. P. and Buseck P. R. 1990. Aqueous alteration in the Kaba CV3 carbonaceous chondrite. Geochimica et Cosmochimica Acta 54:21132120.
  • Klerner S., Jones R. H., Palme H., and Shearer C. K. 2000. Trace elements and cathodoluminescence in refractory forsterite from Allende and Kaba (abstract #1689). 31st Lunar and Planetary Science Conference. CD-ROM.
  • Kornacki A. S. and Wood J. A. 1984. The mineral chemistry and origin of inclusion matrix and meteorite matrix in the Allende CV3 chondrite. Geochimica et Cosmochimica Acta 48:16631676.
  • Krot A. N., Scott E. R. D., and Zolensky M. E. 1995. Mineralogical and chemical modification of components in CV3 chondrites: Nebular or asteroidal processing? Meteoritics 30:748775.
  • Krot A. N., Petaev M. I., Scott E. R. D., Choi B., Zolensky M. E., and Keil K. 1998. Progressive alteration in CV3 chondrites: More evidence for asteroidal alteration. Meteoritics & Planetary Science 33:10651085.
  • Marfunin A. S. 1979. Spectroscopy, luminescence and radiation centers in minerals. Berlin: Springer.
  • McCormick T. C., Smyth J. R., and Lofgren G. E. 1987. Site occupancies of minor elements in synthetic olivines as determined by channeling enhanced X-ray emission. Minerals Physics and Chemistry of Minerals 14:368372.
  • Moncorgé R., Cormier G., Simkin D. J., and Capobianco J. A. 1991. Fluorescence analysis of chromium-doped forsterite (Mg2SiO4). Journal of Quantum Electronics 27:114120.
  • Nishido H., Endo T., Ninagawa K., Kayama M., and Gucsik A. 2013. Thermal effects on cathodoluminescence in forsterite. Geochronometria 40:239243. doi:10.2478/s13386-013-0116-7.
  • Pack A., and Palme H. 2003. Partitioning of Ca and Al between forsterite and silicate melt in dynamic systems with implications for the origin of Ca, Al-rich forsterites in primitive meteorites. Meteoritics & Planetary Science 38:12631281.
  • Pack A., Yurimoto H., and Palme H. 2004. Petrographic and oxygen-isotopic study of refractory forsterites from R-chondrite Dar al Gani 013 (R3.5–6), unequilibrated ordinary and carbonaceous chondrites. Geochimica et Cosmochimica Acta 68:11351157.
  • Pack A., Palme H., and Shelley J. M. G. 2005. Origin of chondritic forsterite grains. Geochimica et Cosmochimica Acta 69:31593182.
  • Petrov I., Agel A., and Hafner S. S. 1989. Distinct defect centers at oxygen positions in albite. American Mineralogist 74:11301141.
  • Simon B. S., Sutton R. S., and Grossman L. 2008. Constraints on the oxidation state of chondrule precursors from titanium XANES analysis of Semarkona chondrules (abstract #1352). 39th Lunar and Planetary Science Conference. CD-ROM.
  • Simonia I. A. 2007. Luminescence of cosmic dust—A result of the interaction of radiation with solid matter. Astrophysics 50:548560.
  • Simonia I. A. 2011. Organic component of cometary ice. Astrophysics and Space Science 332:9198.
  • Simonia I. A. and Mikailov K. M. 2006. Photoluminescence and cathodoluminescence by cosmic dust. Astronomy Reports 50:960964.
  • Slaby E., Götze J., Simon K., and Wörner G. 2008. K-feldsper phenocrysts in microgranular magmatic enclaves: Cathodoluminescence and geochemical studies on crystal growth as a marker of magma mingling dynamics. Lithos 105:8597.
  • Spandler C. and O'Neill H. St. C. 2009. Diffusion and partition coefficients of minor and trace elements in San Carlos olivine at 1300 °C with some geochemical implications. Contributions to Mineralogy and Petrology 159:791818.
  • Steele I. M. 1988. Primitive material surviving in chondrites — Mineral grains, Meteorites and the early solar system (A89–27476 10–91). Tucson, Arizona: University of Arizona Press. pp. 808818.
  • Steele I. M. 1995. Oscillatory zoning in meteoritic forsterite. American Mineralogist 80:823832.
  • Steele I. M. and Smith J. V. 1986. Contrasting forsterite compositions for C2, C3, and UOC meteorites; evidence for divergence from common parent (abstract). 17th Lunar and Planetary Science Conference. p. 822.
  • Steele I. M., Smith J. V., and Sirikus C. 1985. Cathodoluminescence zoning and minor elements in forsterites from the Murchison (C2) and Allende (C3V) carbonaceous chondrites. Nature 313:294297.
  • Stevens-Kalceff M. A. 2009. Cathodoluminescence microcharacterization of point defects in α-quartz. Mineralogical Magazine 73:585605.
  • Sviridov D. T., Sevastyanov B. K., Orekhova V. P., and Sviridova R. K. 1973. Optical absorption spectra of excited Cr31 ions in magnesium spinel at room and liquid nitrogen temperatures. Optics and Spectroscopy 35:5961.
  • Taftø J. and Spence J. C. H. 1982. Crystal site location of iron and trace elements in a magnesium-iron olivine by a new crystallographic technique. Science 218:4951.
  • Valera M. E., Metrich N., Bonnin-Mosbah M., and Kurat G. 2000. Carbon in glass inclusions of Allende, Vigarano, Bali and Kaba (CV3) olivines. Geochimica et Cosmochimica Acta 64:39233930.
  • Vijh U. P., Witt A. N., and Gordon K. D. 2004. Discovery of blue luminescence in the red rectangle: possible fluorescence from neutral polycyclic aromatic hydrocarbon molecules? The Astrophysical Journal 606:L65L68.
  • Wood D. L., Imbusch G. F., MacFarlane R. M., Kisliuk P., and Larkin D. M. 1968. Optical spectrum of Cr31 ions in spinels. Journal of Chemical Physics 48:52555263.