Physics
Scientific paper
Apr 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999jphd...32..876b&link_type=abstract
Journal of Physics D: Applied Physics, Volume 32, Issue 8, pp. 876-885 (1999).
Physics
4
Scientific paper
The contribution of the radiation diffusion 0022-3727/32/8/007/img1 to the thermal conductivity 0022-3727/32/8/007/img2 in high-pressure discharge lamps is evaluated from operating-voltage and wall-temperature measurements for several cylindrical ceramic discharge tubes filled with mercury and argon as the rare gas. From calculations of 0022-3727/32/8/007/img1 using spectral line data of mercury, it is shown that the electrical conductivity 0022-3727/32/8/007/img4 can be well represented by a linear function of the heat-flux potential S. Under this assumption, the energy balance can be solved analytically and plasma parameters, i.e. radiation-diffusion and plasma-temperature profiles, can be calculated from the operating voltage and wall temperature without knowledge of spectral lines. The results are in good agreement with numerical calculations of the energy balance involving calculation of the radiation diffusion from spectral line data. The method may also be applied to other buffer gases for which there is a linear dependency of 0022-3727/32/8/007/img5. This may be checked qualitatively by measurement of the temporal evolution of the operating voltage using the Cassie-Francis equation.
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