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Townsend, P. D., Karali, T., Rowlands, A. P., Smith, V. A., Vazquez, G. (1999) Recent examples of cathodoluminescence as a probe of surface structure and composition. Mineralogical Magazine, 63 (2) 211-226 doi:10.1180/002646199548448

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Reference TypeJournal (article/letter/editorial)
TitleRecent examples of cathodoluminescence as a probe of surface structure and composition
JournalMineralogical MagazineISSN0026-461X
AuthorsTownsend, P. D.Author
Karali, T.Author
Rowlands, A. P.Author
Smith, V. A.Author
Vazquez, G.Author
Year1999 (April)Volume63
Issue2
PublisherMineralogical Society
Download URLhttps://rruff.info/doclib/MinMag/Volume_63/63-2-211.pdf+
DOIdoi:10.1180/002646199548448Search in ResearchGate
Generate Citation Formats
Mindat Ref. ID1275Long-form Identifiermindat:1:5:1275:5
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Full ReferenceTownsend, P. D., Karali, T., Rowlands, A. P., Smith, V. A., Vazquez, G. (1999) Recent examples of cathodoluminescence as a probe of surface structure and composition. Mineralogical Magazine, 63 (2) 211-226 doi:10.1180/002646199548448
Plain TextTownsend, P. D., Karali, T., Rowlands, A. P., Smith, V. A., Vazquez, G. (1999) Recent examples of cathodoluminescence as a probe of surface structure and composition. Mineralogical Magazine, 63 (2) 211-226 doi:10.1180/002646199548448
In(1999) Mineralogical Magazine Vol. 63 (2) Mineralogical Society
Abstract/NotesAbstractCathodoluminescence (CL) provides a sensitive analytical probe of the near-surface region of insulating materials, and some new examples of the strengths of the technique are presented using recent data from the University of Sussex. Analysis of float glass shows that by spectral and lifetime resolved data it is possible to separate the emission bands from excitonic, intrinsic imperfections, and impurities in various valence states, as a function of their depth beneath the surface. Correlation of the CL data with those from Mössbauer, ion beam and other analyses then provides the basis for models of the defect sites. CL from a second glass, ZBLAN, reveals the presence of microcrystallites and growth defects, and the work underpins confidence in the high purity gas levitation method of ZBLAN production. New results on CL of wavelength shifts with crystal field of Mn in carbonates are presented, and of Nd emission from Nd:YAG. The effects are directly linked to surface damage and dislocations caused by sample preparation steps of cutting and polishing. Methods to minimise the damage, by furnace or pulsed laser annealing, and chemical routes, are mentioned. Such surface preparation damage has a profound effect on all CL monitoring, whether for fundamental studies or mineralogical applications. Finally, a route to eliminate such problems is demonstrated, with consequent improvements in luminescence, transmission and laser performance of surface waveguides. The implications of improved surface quality range widely from mineralogical CL imaging through improved photonic materials and epitaxial growth to elimination of surface damage, and additional information.

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Rowlands, A P, Karali, T, Terrones, M, Grobert, N, Townsend, P D, Kordatos, K (2000) Cathodoluminescence of fullerene C60. Journal of Physics: Condensed Matter, 12 (36). 7869-7878 doi:10.1088/0953-8984/12/36/302
Götze, J., Kempe, U., Habermann, D., Nasdala, L., Neuser, R. D., Richter, D. K. (1999) High-resolution cathodoluminescence combined with SHRIMP ion probe measurements of detrital zircons. Mineralogical Magazine, 63 (2) 179-187 doi:10.1180/002646199548411
Townsend, P. D., Rowlands, A. P. (2000) Information Encoded in Cathodoluminescence Emission Spectra. In Cathodoluminescence in Geosciences. Springer Berlin Heidelberg. p.41-57. doi:10.1007/978-3-662-04086-7_3
Kolitsch, U., Slade, P. G., Tiekink, E. R. T., Pring, A. (1999) The structure of antimonian dussertite and the role of antimony in oxysalt minerals. Mineralogical Magazine, 63 (1) 17-26 doi:10.1180/002646199548277
Karali, T, Rowlands, A P, Townsend, P D, Prokic, M, Olivares, J (1998) Spectral comparison of Dy, Tm and Dy/Tm in thermoluminescent dosimeters. Journal of Physics D: Applied Physics, 31. 754-765 doi:10.1088/0022-3727/31/6/025
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