Title :
Emissive Langmuir probes in the strong emission regime for the determination of the plasma properties
Author :
Tierno, S.P. ; Domenech, J.L. ; Donoso, J.M. ; Conde, L. ; Jennewein, D. ; Herdrich, G.
Author_Institution :
Dpto. Física Aplicada. ETSI Aeronáuticos. Univerisidad, Politécnica de Madrid. 28040. Spain
Abstract :
The emissive Langmuir probes are made up of thin metallic wires exposed to the plasma and heated up to the electron thermoionic emission by a DC current 1,2,3. They are essentially used to determine the local plasma potential Vsp1,2,3 and the electron temperature Te4. The weak and strong electron operation emission regimes of the probe are determined by means of the probe temperature Tw. For probe bias voltages Vp < Vsp the experimental evidence points out that a fraction of the emitted electron population returns to the probe after colliding. The probe temperature dependent voltage current curves were found in agreement with a simple model, which accounts for this returned electron current. Therefore for low positive probe polarization voltages Vp⌷Vsp two electron populations also coexist close to the probe; the electrons from the plasma and also the local emitted electrons of temperature TW that slightly alter the local potential around the probe. Thus, the electron saturation current results from the sum of two drained electron currents, and one of them relies on the wire temperature. The determination of the plasma potential and the electron temperature for polarization potentials Vp < Vsp by using the floating potential of the probe is also investigated. The plasma potential was obtained from the measurements of the floating potential as a function of the probe temperature. A sharp transition between two different regimes is observed at the temperature where floating potential equals the plasma potential. However, while on theoretical grounds the determination of the electron temperature Te is also possible 4, the results obtained when using emissive and collecting probes differ. The different electron populations close to the probe when Vp< Vsp would b- responsible of this disparity between the experimental results found with both probes.
Keywords :
Electric potential; Plasma temperature; Probes; Sociology; Statistics; Temperature measurement;
Conference_Titel :
Plasma Science (ICOPS), 2012 Abstracts IEEE International Conference on
Conference_Location :
Edinburgh
Print_ISBN :
978-1-4577-2127-4
Electronic_ISBN :
0730-9244
DOI :
10.1109/PLASMA.2012.6383291