Why vacuum arc cathode spots can appear larger than they are

The visual appearance of arc cathode spots in vacuum is studied experimentally and theoretically. Emission photographs of the spots taken with line radiation have a broad light profile with a rather flat slope (proportional to r/sup -/spl beta// with /spl beta//spl ap/2, r being the distance from th...

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Veröffentlicht in:IEEE transactions on plasma science 1995-02, Vol.23 (1), p.55-64
Hauptverfasser: Hantzsche, E., Juttner, B., Ziegenhagen, G.
Format: Artikel
Sprache:eng
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Zusammenfassung:The visual appearance of arc cathode spots in vacuum is studied experimentally and theoretically. Emission photographs of the spots taken with line radiation have a broad light profile with a rather flat slope (proportional to r/sup -/spl beta// with /spl beta//spl ap/2, r being the distance from the spot center), while photographs taken in absorption are small, having a sharp edge with a steep slope of the profile (/spl beta//spl ges/4). Emission photographs from the continuum are similar to absorption photographs. Theoretical analysis shows that the emitted line radiation cannot stem from the locus of excitation. As a consequence, the particles are excited at the edge of the dense spot core, but they radiate at a greater distance due to the finite lifetime of the excited levels and the plasma expansion. Thus, emission photographs from line radiation indicate a greater spot size (about 100 /spl mu/m) than corresponding to the active spot radius which amounts to /spl les/10 /spl mu/m. This statement holds for discharge durations from 10 ns up to at least 100 /spl mu/s. The spots exist not only at ignition but during the whole time of the discharge, the location varying due to the spot movement. Absorption photographs show a small size of 10-20 /spl mu/m still 200 /spl mu/s after ignition.< >
ISSN:0093-3813
1939-9375
DOI:10.1109/27.376561