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Journal of the Illuminating Engineering Society Volume 7, 1978 - Issue 4
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Original Articles

Semi-empirical Model for the Electrical Conductivity of the Scandium-sodium Iodide Arc Lamp

W. M. KeeffeGTE Sylvania Inc., Danvers, Massachusetts.
,
J. C. MorrisGTE Sylvania Inc., Danvers, Massachusetts.
&
W. WalterGTE Sylvania Inc., Danvers, Massachusetts.
Pages 249-254 | Published online: 20 Sep 2013

References

  • WaymouthJ. F.,GungleW. C.,HarrisJ. M. and KouryF. “A new metal halide arc lamp”, Illuminating Engineering, Vol. 60, No. 2, February 1965, p. 85.
  • KouryF.,GungleW. C. and WaymouthJ. F. “A new generation of metal halide lamps”, Journal of the Illuminating Engineering Society, Vol. 4, No. 2, January 1975, p. 106.
  • FohlT. “Convective effects in arcs”, Journal of the Illuminating Engineering Society, Vol. 4, No. 4, July 1975, p. 265.
  • BarrW. L. “Method for computing the radial distribution of emitters in a cylindrical source”, Journal of the Optical Society of America, Vol. 52, No. 8, August 1962, p. 885.
  • WharmbyD. O. and OdellE. C. Radial temperature measurements of arcs containing sodium, scandium, thorium, and mercury iodides, International Conference on Phenomena in Ionized Gases, Prague, 1973, p. 229.
  • FischerE. “The column of a DC arc burning in a metal halide atmosphere”, Journal of Applied Physics, Vol. 45, No. 8, August 1974, p. 3365.
  • ZollwegR. J.,LowkeJ. J. and LiebermannR. W. “Arc constriction in lamps containing mercury and iodine”, Journal of Applied Physics, Vol. 46, No. 9, September 1975, p. 3828.
  • AdriaanszM. and VriensL. “Laser Raman scattering from metal halide arcs”, Philips Research Reports, Vol. 31, No. 3, June 1976, p. 193.
  • MouwenC. A. M. “Determination of the radial temperature distribution in a high pressure discharge”, Physica, Vol. 44, No. 3, 1969, p. 381.
  • KeeffeW. M.,BambergW. I. and WaymouthJ. F. “Scandium-sodium iodide arc lamp—spectral behavior through early life”, Journal of the Illuminating Engineering Society, Vol. 5, No. 4, July 1976, p. 200.
  • KeeffeW. M. et al “Atomic emission spectroscopy of metal halide-mercury vapor arc light sources”, Bulletin of the American Physical Society, Vol. 21, No. 5, May 1976, p. 846
  • DickermanP. J. and DevelR. W. “Technique for measuring self-absorption of spectral lines in plasmas”, Review of Scientific Instruments, Vol. 35, No. 8, August 1964, p. 978.
  • KeeffeW. M. “Energy balance of the scandium-sodium iodide arc lamp”, Journal of the Illuminating Engineering Society, Vol. 4, No. 4, July 1975, p. 260.
  • WaymouthJ. F. et al Spectroscopic techniques for diagnostics of metal halide arc lamps, International Symposium on Incoherent Light Sources, University of Technology, Loughborough, Great Britain, April 1975, p. 21.
  • MorrisJ. C. and WalkerJ. H. “Electron-neutral transport cross section of mercury”, Journal of Applied Physics, Vol. 44, No. 10, October 1973, p. 4558.
  • MooresD. L. and NorcrossD. W. “The scattering of electrons by sodium atoms”, Journal of Physics B: Atomic and Molecular Physics, Vol. 5, No. 8, August 1972, p. 1482.
  • LiebermannR. W., private communication.

References

  • CapD. M. and ShaffnerR. O. Theoretical characteristics of arc discharges using a two-zone model, IEEE Conference on Plasma Science, 1975, Ann Arbor, Michigan.
  • ShaffnerR. O. “Theoretical properties of several metal halide arcs assuming LTE”, Institute of Electrical and Electronics Engineers Proceedings, Vol. 59, 1971, p. 622.

References

References

  • PilzW. and SeehawerJ. Proceedings of the 12th International Conference on Phenomena in Ionized Gases, Eindhoven, 1975, p. 146.
  • ElenbaasW. The High Pressure Mercury Vapor Discharge, North Holland Publishing Company, Amsterdam, 1951, p. 42ff.

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