2022
DOI: 10.21883/tp.2022.10.54361.93-22
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Electronic mechanism of propagation of nanosecond breakdown channel in liquid organic dielectrics

Abstract: The mechanism of anode-initiated breakdown in liquid organic dielectrics with long molecular chains is proposed on the basis of the experimental data on high velocities of the breakdown channel propagation in organosilicon and organofluorine liquids (~107 cm/s), which are comparable to that obtained earlier in crystals in the same conditions. The high velocities of the anode-initiated breakdown channel are satisfactory explained within the model of the cascade Auger transitions, developed for the crystalline m… Show more

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