Accession Number : AD0711669
Title : ELECTRON TEMPERATURE AND NUMBER DENSITY MEASUREMENTS IN A NONEQUILIBRIUM PLASMA BOUNDARY LAYER.
Descriptive Note : Research rept.,
Corporate Author : STANFORD UNIV CALIF INST FOR PLASMA RESEARCH
Personal Author(s) : Brown,Robert T.
Report Date : JAN 1970
Pagination or Media Count : 257
Abstract : Measurements of the electron temperature and electron number density in a nonequilibrium plasma boundary layer are presented along with related analyses. The plasma consisted of atmospheric pressure NaK seeded argon at 2400 degrees K flowing over a cooled flat surface which was electrically floating and non-emitting. The analyses proceed from consideration of the coupled electron continuity and electron energy equations with boundary conditions appropriate to NaK seeded argon. The entire electron continuity equation is retained, including the ionization-recombination source term. Various source terms are included in the electron energy equation to account for elastic collisions, inelastic collisions with seed atoms, and inelastic collisions with gas additives such as molecular nitrogen. The equations are transformed into boundary layer coordinates using a 'local similarity' transformation and are solved numerically for a range of plasma conditions. It is shown that the major nonequilibrium effects can be interpreted in terms of three characteristic lengths: delta the thermal layer thickness, l sub E the characteristic length for electron energy exchange, and l sub I the characteristic length for ionization and recombination. (Author)
Descriptors : (*PLASMA MEDIUM, ELECTRON DENSITY), (*ELECTRON DENSITY, MEASUREMENT), LAMINAR BOUNDARY LAYER, IONS, ELASTIC SCATTERING, INELASTIC SCATTERING, PARTIAL DIFFERENTIAL EQUATIONS, BOUNDARY VALUE PROBLEMS, PROBES(ELECTROMAGNETIC), GAS IONIZATION, NUMERICAL ANALYSIS
Subject Categories : Plasma Physics and Magnetohydrodynamics
Distribution Statement : APPROVED FOR PUBLIC RELEASE