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Experimental Data
Feedback Mechanism
Field Emission
High Speed
Space Charge
Secondary Electron
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The role of outgassing in surface flashover under vacuum
The role of outgassing in surface flashover under vacuum,10.1109/PPC.1999.825505,A. Neuber,M. Butcher,H. Krompholz,L. L. Hatfield,M. Kristiansen
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The role of outgassing in surface flashover under vacuum
(
Citations: 1
)
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A. Neuber
,
M. Butcher
,
H. Krompholz
,
L. L. Hatfield
,
M. Kristiansen
Results of high-speed electrical and optical diagnostics are used as a basis to discuss a new surface flashover model. Outgassing, caused by electron stimulated desorption, is found to play a crucial role in the temporal flashover development. Dielectric unipolar surface flashover under vacuum is experimentally characterized by a three-phase development, that covers a current range from 10-4 A to 100 A. Phase one comprises a fast (several nanoseconds) buildup of a saturated
secondary electron
avalanche reaching current levels of 10 to 100 mA. Phase two is associated with a slow current amplification reaching currents in the Ampere level within typically 100 nanoseconds. The final phase is characterized by a fast current rise up to the impedance-limited current of the order of 100 A. The development during phase two and three is described by a zero-dimensional model, where electron-induced outgassing leads to a Townsend-like gas discharge above the surface. This is supported by time-resolved spectroscopy that reveals the existence of excited atomic hydrogen and ionic carbon before the final phase. The
feedback mechanism
towards a self-sustained discharge is due to
space charge
leading to an enhanced
field emission
from the cathode. A priori unknown model parameters, such as outgassing rate and gas density build-up above the surface, are determined by fitting calculated results to experimental data. The significance of outgassing is also discussed with a view to microwave surface flashover
Conference:
Pulsed Power, International Conference - PPC
, 1999
DOI:
10.1109/PPC.1999.825505
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References
(2)
Surface flashover of insulators
(
Citations: 116
)
H. C. Miller
Journal:
IEEE Transactions on Electrical Insulation
, vol. 24, no. 5, pp. 765-786, 1989
Mechanism of pulsed surface flashover involving electron-stimulated desorption
(
Citations: 70
)
R. A. Anderson
,
J. P. Brainard
Published in 1980.
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Citations
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Energetic particle and photon emission during dense plasma formation at the ferroelectric surface
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