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  • Charalampopoulos, T. T.; Felske, J. D.
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    Refractive Indices of Soot Particles Deduced From In-Situ Laser Light Scattering Measurements.
    New York State Univ. at Buffalo, Amherst
    Combustion and Flame, Vol. 68, No. 3, 283-294, June 1987
    National Science Foundation, Washington, DC,

  • Habib, Z. G.; Vervisch, P.
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    On the Refractive Index of Soot at Flame Temperature.
    Laboratoire de Thermodynamique, Mont-Saint-Aignan, France
    Combustion Science and Technology, Vol. 59, No. 4-6, 261-274, 1988

  • Hirleman, E. D.
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    Nonideal Effects in Laser Diagnostics of Combustion Particulates.
    Arizona State Univ., Tempe
    Paper 78-19,
    Combustion Institute/Western States Section. Spring Meeting, 1978. In-Situ Combustion Technology, Ignition, and General Combustion Topics. April 17-18, 1978, Boulder, CO, 34 p., 1978

  • Timms, G.; Haggar, P.
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    Foam Concentration Measurement Techniques.
    Australian Construction Services, Port Melbourne, Australia
    Fire Technology, Vol. 26, No. 1, 41-50, February 1990

  • Graham, S. C.
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    Refractive Indices of Isolated and Aggregated Soot Particles.
    Shell Research Ltd., Chester, England
    Combustion Science and Technology, Vol. 9, No. 3-4, 159-163, 1974

  • Kerker, M.
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    Light Scattering by Single Aerosol Particles.
    IIT Research Institute, Chicago, IL
    NBS SP 412, October 1974,
    National Bureau of Standards and Food and Drug Administration. Aerosol Measurements: Proceedings of a Seminar. May 7, 1974, Gaithersburg, MD, Cassatt, W. A.; Maddock, R. S., Editors, 13-20 p., 1974

  • Gravatt, C. C.
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    Light Scattering Methods for the Characterization of Particulate Matter in Real Time.
    National Bureau of Standards, Washington, DC
    NBS SP 412, October 1974,
    National Bureau of Standards and Food and Drug Administration. Aerosol Measurements: Proceedings of a Seminar. May 7, 1974, Gaithersburg, MD, Cassatt, W. A.; Maddock, R. S., Editors, 21-32 p., 1974

  • Dalzell, W. H.; Sarofim, A. F.
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    Optical Constants of Soot and Their Application to Heat-Flux Calculations.
    Massachusetts Institute of Technology, Cambridge
    Journal of Heat Transfer, Vol. 91, 100-104, February 1969

  • Felske, J. D.; Ku, J. C.
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    Technique for Determining the Spectral Refractive Indices, Size, and Number Density of Soot Particles From Light Scattering and Spectral Extinction Measurements in Flames.
    State University of New York, Buffalo; Wayne State Univ., Detroit, MI
    Combustion and Flame, Vol. 91, No. 1, 1-20, October 1992

  • Stagg, B. J.; Charalampopoulos, T. T.
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    Refractive Indices of Pyrolytic Graphite, Amorphous Carbon, and Flame Soot in the Temperature Range 25 deg to 600 deg C.
    Louisiana State Univ., Baton Rouge, LA
    Combustion and Flame, Vol. 94, No. 4, 381-396, September 1993