Title :
Validity conditions for complete and partial local thermodynamic equilibrium of nonhydrogenic level systems and their application to copper vapor arcs in vacuum
Author :
Anders, Andre ; Anders, Simone ; Hantzsche, Erhard
Author_Institution :
Central Inst. of Electron Phys., Acad. of Sci., Berlin, East Germany
fDate :
10/1/1989 12:00:00 AM
Abstract :
Validity conditions for complete and partial local thermodynamic equilibrium (CLTE and PLTE) of homogeneous, time-dependent, and optically thin plasmas are derived. For Cu I, electron densities of ne⩾(5×1022-5×1023 ) m-3 are required for the establishment of CLTE. For Cu I and Cu II, ne⩾(5×1021-5×1021 -5×1022) m-3 is necessary for PLTE (for electron temperatures of 1-2 eV). Application to low-current copper vapor arcs in vacuum shows that CLTE can be expected for r<200-600 μm (r=distance from the cathode spot). A further limitation follows for temperatures of 2 eV or higher if diffusion effects are taken into consideration. Consequently, the use of the LTE formulas in plasma spectroscopy of low-current vacuum arcs is very limited
Keywords :
arcs (electric); electron density; plasma density; plasma theory; 1 to 2 eV; 200 to 60 micron; 50 to 200 micron; Cu; Cu I; Cu II; Cu vapor arc; complete LTE; diffusion effects; electron densities; electron temperatures; homogeneous time-independent plasma; nonhydrogenic level systems; optically thin plasmas; partial local thermodynamic equilibrium; plasma spectroscopy; vacuum; validity conditions; Cathodes; Copper; Electron optics; Plasma applications; Plasma density; Plasma temperature; Stationary state; Thermodynamics; Vacuum arcs; Vacuum systems;
Journal_Title :
Plasma Science, IEEE Transactions on
