Title :
Lithium-argon discharges in a multicusp-ECR microwave resonant cavity
Author :
Brooks, C.B. ; Brake, M.L.
Author_Institution :
Dept. of Nucl. Eng., Michigan Univ., Ann Arbor, MI, USA
fDate :
12/1/1995 12:00:00 AM
Abstract :
Argon and lithium-argon discharges have been created in a multicusp-ECR microwave resonant cavity. A double Langmuir probe has been used to determine discharge characteristics, indicating ion densities of 1010-1011 cm-3 and electron temperatures of about 3 eV with operating pressures of 4-20 mtorr and input powers of 100-250 W. Lithium is introduced to the system in the form of lithium chloride or lithium carbonate which is then heated by a background argon discharge allowing dissociation of lithium. The dissociation is evidenced by the observation of strong Li-I lines in the discharge using optical emission spectroscopy. LiCl was found to give a strong Li-I optical signal for about 15 min run time whereas Li 2CO3 gave lower intensity lines, but for about 60 min run time
Keywords :
Langmuir probes; argon; discharges (electric); ion density; lithium; plasma density; plasma diagnostics; plasma production; plasma temperature; 100 to 250 W; 3 eV; 4 to 20 mtorr; Li-Ar; Li-Ar discharges; discharge characteristics; dissociation; double Langmuir probe; electron temperatures; ion densities; multicusp-ECR microwave resonant cavity; optical emission spectroscopy; Electromagnetic heating; Fault location; Lithium compounds; Plasma measurements; Plasma sources; Probes; Resonance; Solids; Spectroscopy; Stimulated emission;
Journal_Title :
Plasma Science, IEEE Transactions on
