Expanding on the relationship between continuing current and in‐cloud leader growth

When lightning connects to the ground, there is a large surge of current, called the return stroke, which is occasionally followed by a longer‐lasting steady current, called continuing current (CC). In a previous study of negative cloud‐to‐ground (−CG) flashes, we observed the growth rate of in‐clou...

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Bibliographic Details
Published in:Journal of geophysical research. Atmospheres 2017-04, Vol.122 (8), p.4150-4164
Main Authors: Lapierre, Jeff L., Sonnenfeld, Richard G., Stock, Michael, Krehbiel, Paul R., Edens, Harald E., Jensen, Daniel
Format: Article
Language:English
Subjects:
atmospheric electricity
Cloud-to-ground lightning
Clouds
continuing current
Duration
Electric contacts
Electric potential
Geophysics
Growth rate
Interferometers
Lightning
Lightning currents
Lightning discharges
Lightning flashes
Lightning leaders
Mapping
Meteorology
physics
Polarity
Return strokes (lightning)
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Summary:When lightning connects to the ground, there is a large surge of current, called the return stroke, which is occasionally followed by a longer‐lasting steady current, called continuing current (CC). In a previous study of negative cloud‐to‐ground (−CG) flashes, we observed the growth rate of in‐cloud positive leaders in an attempt to identify occurrences of CC. However, there was no observed change in positive leader growth rate during CC of negative CG flashes. In this study, we use the Langmuir Electric Field Array, Lightning Mapping Array, and Flash‐Continuous Broadband Digital Interferometer data to extend the previous study to the growth of the negative leader during positive CG flashes. We have found that in contrast with previous results, negative leader growth during positive CG flashes does show increases in growth rates coincident with CC. Finally, we find that the growth rate magnitudes for positive and negative leaders are typically ∼2–4 km/10 ms and ∼25–40 km/10 ms, respectively. These contrasting results highlight the differences between positive and negative leaders and provide strong evidence as to why −CC and +CC behave differently. Negative leaders inject higher amounts of current and allow the channel to remain conductive throughout the duration of CC. Whereas for positive leaders, the channel becomes nonconductive relatively quickly. It is therefore disconnected from the channel to the ground, and, due to the positive leader's continued growth, an electric potential is built up until a K event is produced that re‐ionizes the channel. Plain Language Summary Cloud‐to‐ground (CG) discharges are bipolar events consisting of a downward leader to ground fed by an opposite polarity leader within the cloud. For negative CG discharges (−CGs), the downward leader lowers negative charge toward ground, while the associated in‐cloud breakdown is positive. The opposite is true of positive CG discharges (+CGs). When the descending leader contacts the ground, ground potential propagates rapidly back up the channel as a high‐current return stroke, which can occasionally initiate a long‐lasting continuous current (CC). Generally, −CG flashes consist of three to five return strokes, whereas +CG flashes consist of one. In this study, we analyze the growth of negative leaders of +CG flashes during CC to determine whether there is any observable change. We have found that in contrast with −CG flashes, negative leader growth during +CG flashes does show incre
ISSN:2169-897X
2169-8996
DOI:10.1002/2016JD026189