Retraction Notice: Phenomenon of Skipping Sparks in Discharges on a Dielectric Surface

Gliding sparks are associated with channel breakdown in air near a corona precharged dielectric layer backed by ground. Characterized by high current, their bright channels usually end in sudden branching/dimming. Infrequently, there occur cases in which channel brightness is interrupted, with no ev...

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Published in:IEEE transactions on industry applications 2024-01, Vol.60 (1), p.929-929
Main Authors: Lee, T. S., Fung, B. K., Markus, David T.
Format: Article
Language:English
Subjects:
Brightness
Corona
Delays
Dielectrics
Discharges (electric)
Surface charging
Surface discharges
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Markus, David T.
description Gliding sparks are associated with channel breakdown in air near a corona precharged dielectric layer backed by ground. Characterized by high current, their bright channels usually end in sudden branching/dimming. Infrequently, there occur cases in which channel brightness is interrupted, with no evident local branching but a new leader continuing on propagating after momentary delay. This skipping-spark phenomenon has been studied in an experimental system intended for taking Kirlian photographs. Operated in a Lichtenberg-figure mode, the method yields evidence in some detail. The authors report on observations of spark-channel touchdown and subsequent rebounding. A model based on nonuniform surface charging is proposed for explanation.
doi_str_mv 10.1109/TIA.2023.3346628
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subjects Brightness
Corona
Delays
Dielectrics
Discharges (electric)
Surface charging
Surface discharges
title Retraction Notice: Phenomenon of Skipping Sparks in Discharges on a Dielectric Surface
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