1. The breakthrough phase of lightning attachment process: From collision of opposite-polarity streamers to hot-channel connection.
- Author
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Rakov, V.A. and Tran, M.D.
- Subjects
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LIGHTNING , *ELECTRIC currents , *HARD X-rays , *ELECTRIC discharges , *ELECTRIC fields , *MAGNETIC fields , *MAGNITUDE (Mathematics) - Abstract
• Recent progress in studying the breakthrough phase of the attachment process is reviewed. • During the BTP, hot channels of both the DL and UCL extend toward each other inside the CSZ. • During the BTP, the current rises from the UCL level to tens of kA (for negative first strokes). • Initial conductivity of common streamer zone is expected to be of the order of 10−5 S/m. Recent progress in studying the breakthrough phase (BTP) of the attachment process in lightning and long sparks is reviewed. The main focus is on the new insights gained from recent observations for 3 types of electric discharges: natural lightning (Nag et al., 2012; Tran and Rakov, 2017a,c), rocket-and-wire triggered lightning (Howard et al., 2010; Hill et al., 2016), and long sparks (Kostinskiy et al., 2016). The BTP (also known as the final jump) starts when the poorly-conducting streamer zones, developing ahead of the hot channels of negative downward leader (DL) and positive upward connecting leader (UCL), come in contact and a common streamer zone (CSZ) is formed. The beginning of BTP (establishment of CSZ) is usually marked by an abrupt current rise, a burst of dE/dt pulses (referred to as leader burst or LB), and hard X-ray emission. During the BTP, hot channels of both DL and UCL extend toward each other inside the CSZ, resulting in its shrinking, until the high-impedance CSZ is eliminated and low-impedance connection of DL to the grounded object is established. The process of bridging of CSZ by hot leader channels is accompanied by the formation of slow front (SF) in the channel current and in electric and magnetic field waveforms at both close and far distances from the channel. Attempted or relatively weak hot-channel connections producing current surges and associated field pulses superimposed on the SF (SF pulses) can occur. The SF lasts some microseconds and ends at the onset of the submicrosecond-scale fast transition (FT), which signifies the end of BTP. During the BTP, the current rises from the UCL level of the order of tens to hundreds of amperes to about 50% of the overall (SF + FT) current peak, which is of the order of tens of kiloamperes (for negative first strokes). This two orders of magnitude current rise during the BTP occurs before the collision of hot leader channels inside the CSZ; that is, before the onset of return stroke proper. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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