
Accession Number : AD0723804
Title : Theory of an ElectricCurrentCarrying Discontinuity Driven through Nonconducting Gas by a Lorentz Force.
Descriptive Note : Technical rept.,
Corporate Author : PURDUE UNIV LAFAYETTE IND PROJECT SQUID HEADQUARTERS
Personal Author(s) : Gallington,Roger W. ; Bond,Charles E.
Report Date : MAR 1971
Pagination or Media Count : 41
Abstract : A physical model is presented for the structure of an electriccurrentcarrying discontinuity moving into nonconducting gas and leaving nonconducting gas behind. The model assumes a normal shock wave followed by a porous current sheet. A threefluid analysis (electrons, neutrals, and singlycharged ions) is made for the case where the component of magnetic field normal to the plane of the discontinuity is zero. All the dependent variables can be computed as functions of displacement in the streamwise direction, as demonstrated in two specific examples. The model admits finitestrength current sheets as solutions, with the electron and ion density diminishing to zero upstream and downstream of the sheet. As seen moving with the discontinuity, the impressed electric field and the induced electric field are additive. This is in contrast to the case for magnetohydrodynamic shock waves, where these two fields cancel on both sides; and to gasionizing shock waves, where the two fields cancel on the downstream side. In the frame of reference moving with the discontinuity, the discontinuity dissipates electrical energy and decelerates the gas. (Author)
Descriptors : (*MAGNETOHYDRODYNAMICS, SHOCK WAVES), (*GAS IONIZATION, SHOCK WAVES), PLASMA ACCELERATORS, ELECTRON DENSITY, IONS, SHOCK TUBES, DIFFERENTIAL EQUATIONS, NUMERICAL INTEGRATION, THERMAL CONDUCTIVITY
Subject Categories : Plasma Physics and Magnetohydrodynamics
Distribution Statement : APPROVED FOR PUBLIC RELEASE