Electric Breakdown in Long Discharge Tubes at Low Pressure (Review)

Electric Breakdown in Long Discharge Tubes at Low Pressure (Review)

The review is devoted to studies of the processes and mechanisms of ignition of a glow discharge in tubes whose length significantly exceeds their diameter (long discharge tubes) at low pressures (~10 Torr and lower) and moderate voltage rise rates (~1 kV/μs and lower). The electric field in such tu...

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Bibliographic Details
Published in:Plasma physics reports Vol. 46; no. 10; pp. 1015 - 1044
Main Author: Ionikh, Yu. Z.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-10-2020
Springer Nature B.V
Subjects:
Atomic
Breakdown
Electric discharges
Electric fields
Gas discharge tubes
Glow discharges
Ionization waves
Low pressure
Low-Temperature Plasma
Molecular
Optical and Plasma Physics
Physics
Physics and Astronomy
Radiation shielding
Slopes
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Summary:The review is devoted to studies of the processes and mechanisms of ignition of a glow discharge in tubes whose length significantly exceeds their diameter (long discharge tubes) at low pressures (~10 Torr and lower) and moderate voltage rise rates (~1 kV/μs and lower). The electric field in such tubes before a breakdown is substantially nonuniform. Therefore, a breakdown occurs after an ionization wave (or waves) passes through the discharge gap at a speed of ~10 5 –10 7 cm/s. This makes the characteristics of the breakdown in long tubes significantly different from the breakdown between large and closely spaced electrodes, where the electric field is uniform before the breakdown and where the Townsend or, under strong overvoltage, streamer mechanism is realized. On the other hand, the nature of these processes is very different from those occurring in nanosecond discharges, which arise at voltages with a steepness of ~1 kV/ns and higher and are associated with high-speed (~10 9 cm/s) ionization waves. The review is based on the materials of experimental and computational works published from 1938 to 2020. Breakdown processes, optical and electrical characteristics of the discharge gap during breakdown, and the influence of the external circuit parameters and external actions (shielding and illumination by external sources of visible radiation) are analyzed.
ISSN:1063-780X
1562-6938
DOI:10.1134/S1063780X20100049