Title :
Space-charge-limited and temperature-limited electron flow in the vicinity of edges and conical points
Author :
Finn, John M. ; Antonsen, Thomas M., Jr. ; Manheimer, Wallace M.
Author_Institution :
Lab. for Plasma & Fusion Energy Studies, Maryland Univ., College Park, MD, USA
fDate :
4/1/1988 12:00:00 AM
Abstract :
Classes of similarity solutions (or solutions by separation of variables) are found for space-charge-limited and temperature-limited flow in the neighborhood of a cathode in the shape of a corner and in the neighborhood of a conical point, both of arbitrary acute angle. These solutions exhibit characteristic exponents for the behavior of density, flow, electrostatic potential, and current density as functions of the distance from the corner (or conical point). These solutions were used to obtain the scaling of beam emittance with surface roughness, assuming that the surface can be approximated by a series of conical points. The results show that the scaling is insensitive to the exact shape of the surface profile (even if there are points, as in the conical model). Identical scalings are obtained if the surface roughness is two dimensional, i.e. grooves
Keywords :
plasma transport processes; acute angle; beam emittance; cathode; characteristic exponents; conical points; corner; density; edges; electrostatic potential; flow; grooves; scaling; separation of variables; similarity solutions; space charge limited electron flow; surface profile; surface roughness; temperature-limited electron flow; two dimensional surface roughness; Boundary conditions; Cathodes; Current density; Diodes; Electrons; Equations; Laboratories; Rough surfaces; Space charge; Surface roughness;
Journal_Title :
Plasma Science, IEEE Transactions on
