The Boltzmann relation in electronegative plasmas: When is it permissible to use it?

R. N. FRANKLIN; J. SNELL

doi:10.1017/S0022377800008576

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This paper reports the results of computations to obtain the spatial distributions of the charged particles in a bounded active plasma dominated by negative ions. Using the fluid model with a constant collision frequency for electrons, positive ions and negative ions the cases of both detachment-dominated gases (such as oxygen) and recombination-dominated gases (such as chlorine) are examined. It is concluded that it is valid to use a Boltzmann relation ne = ne0exp(eV/kT) for the electrons of density ne, where the temperature T is approximately the electron temperature Te, and that the density nn of the negative ions at low pressures obeys nn = nn0exp(eV/kTn), where Tn is the negative-ion temperature. However, at high pressure in detachment-dominated gases where the ratio of negative-ion density to electron density is constant and greater than unity, and when the attachment rate is larger than the ionization rate, the negative ions are distributed with the same effective temperature as the electrons. In all other cases there is no simple relationship. Thus to put nn/ne = const, nn = ne0exp(eV/kTe) and nn = nn0exp(eV/kTn) simultaneously is mathematically inconsistent and physically unsound. Accordingly, expressions deduced for ambipolar diffusion coefficients based on these assumptions have no validity. The correct expressions for the situation where nn/ne = const are obtained without invoking a Boltzmann relation for the negative ions.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Franklin, R.N 2001. A comprehensive treatment of the positive column of discharges in electronegative gases. Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, Vol. 457, Issue. 2006, p. 307.

Franklin, R N 2001. The role of O2(a1Δg) metastables and associative detachment in discharges in oxygen. Journal of Physics D: Applied Physics, Vol. 34, Issue. 12, p. 1834.

Kaganovich, Igor 2001. Negative ion density fronts. Physics of Plasmas, Vol. 8, Issue. 5, p. 2540.

Franklin, R N 2001. Modelling the electron temperature characteristic for discharges in electronegative recombination dominated gases. Journal of Physics D: Applied Physics, Vol. 34, Issue. 8, p. 1243.

Franklin, R N 2001. A critique of models of electronegative plasmas. Plasma Sources Science and Technology, Vol. 10, Issue. 2, p. 162.

Bogdanov, E. A. and Kudryavtsev, A. A. 2001. The conditions for realization of the Boltzmann distribution of negative ions in a plasma. Technical Physics Letters, Vol. 27, Issue. 11, p. 905.

Franklin, R N 2002. Basic relationships in electronegative plasmas with more than one species of negative ion. Journal of Physics D: Applied Physics, Vol. 35, Issue. 6, p. 536.

Franklin, R N 2002. Electronegative plasmas why are they so different?. Plasma Sources Science and Technology, Vol. 11, Issue. 3A, p. A31.

Kono, Akihiro 2002. Negative ions in processing plasmas and their effect on the plasma structure. Applied Surface Science, Vol. 192, Issue. 1-4, p. 115.

Franklin, R N 2002. The effect of including the ion flux issuing from the core of an electronegative plasma on the electron temperature versus pressure characteristic. Plasma Sources Science and Technology, Vol. 11, Issue. 3, p. 279.

Franklin, R N 2003. Ambipolar diffusion is a misnomer. Journal of Physics D: Applied Physics, Vol. 36, Issue. 7, p. 828.

Bogdanov, E. A. Kudryavtsev, A. A. Tsendin, L. D. Arslanbekov, R. R. Kolobov, V. I. and Kudryavtsev, V. V. 2003. Scaling laws for the spatial distributions of the plasma parameters in the positive column of a dc oxygen discharge. Technical Physics, Vol. 48, Issue. 9, p. 1151.

Boruah, D Pal, A R Bailung, H and Chutia, Joyanti 2003. Investigation of sheath properties in Ar/SF6dc discharge plasma. Journal of Physics D: Applied Physics, Vol. 36, Issue. 6, p. 645.

Franklin, R N 2003. Joining active plasma and sheath when the plasma contains two species of positive ions. Journal of Physics D: Applied Physics, Vol. 36, Issue. 1, p. 34.

Bailung, H. Boruah, D. Pal, A.R. and Chutia, Joyanti 2004. Characteristics of presheath in multicomponent plasma with negative ions. Physics Letters A, Vol. 333, Issue. 1-2, p. 102.

Lampe, Martin Manheimer, Wallace M Fernsler, Richard F Slinker, Steven P and Joyce, Glenn 2004. The physical and mathematical basis of stratification in electronegative plasmas. Plasma Sources Science and Technology, Vol. 13, Issue. 1, p. 15.

Fernsler, R. Slinker, S. and Joyce, G. 2005. Quasineutral plasma models. Physical Review E, Vol. 71, Issue. 2,

Franklin, R N 2005. The equations for electronegative plasmas are not singular at the plasma centre at low pressures. Journal of Physics D: Applied Physics, Vol. 38, Issue. 16, p. 2790.

Belostotsky, S G Economou, D J Lopaev, D V and Rakhimova, T V 2005. Negative ion destruction by O(3P) atoms and O2(a 1Δg) molecules in an oxygen plasma. Plasma Sources Science and Technology, Vol. 14, Issue. 3, p. 532.

Plihon, N. Chabert, P. and Corr, C. S. 2007. Experimental investigation of double layers in expanding plasmas. Physics of Plasmas, Vol. 14, Issue. 1,

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The Boltzmann relation in electronegative plasmas: When is it permissible to use it?

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