Electrode-sheath voltages (ESVs) were determined as a function of time in h
igh-pressure ac mercury arcs running at different frequencies in the range
50 Hz-5 kHz with sinusoidal wave forms. Besides the experimental investigat
ions, a one-dimensional model was used to describe the arc-column propertie
s. Measurements of the voltage across the arcs were compared with model cal
culations for the arc-column voltage only. The calculated voltages are most
ly smaller than the measured ones, and it was concluded that the difference
should correspond to the ESV. This voltage drop was compared with values o
btained in a completely different way, namely, by measuring the voltage at
different lengths of the arcs which were otherwise identic, and extrapolati
ng it to zero length. As had been shown before, at 50 Hz this voltage drop
has a very pronounced time behavior during a half cycle. The investigations
were extended to higher frequencies, and the obtained differences are disc
ussed. The field strengths were derived from the rise of the measured volta
ge versus the discharge lengths; a quantitative agreement with the calculat
ed field strengths was obtained by choosing an appropriate pressure. (C) 20
00 American Institute of Physics. [S0021-8979(00)02515-9].