Abstract
Lightning discharges are the electrical production in thunderclouds. They radiate the bulk of radio signals in the very low-frequency and low-frequency (VLF/LF) that can be detected by ground-based receivers. One kind of special intra-cloud lightning discharges known as narrow bipolar events (NBEs) have been shown to be rare but closely linked to the convective activity that leads to hazardous weather. However, there is still lack of understanding on the meteorological conditions for thunderstorm-producing NBEs, especially for those of negative polarity, due to their rare occurrence. In this work, we aim to investigate what meteorological and electrical conditions of thunderclouds favor the production of negative NBEs. Combining with the VLF/LF radio signal measured by Jianghuai Area Sferic Array (JASA), S-band Doppler radar observation and balloon sounding data, two mid-latitude thunderstorms with outbreaks of negative NBEs at midnight in East China were analyzed. The comparison with the vertical radar profile shows that the bursts of negative NBEs occurred near thunderclouds with overshooting tops higher than 18 km. Manifestation of negative NBEs is observed with a relatively low spectrum width near thundercloud tops. Our findings suggest that the detection of negative NBEs would provide a unique electrical means to remotely probe overshooting tops with implications for the exchange of troposphere and stratosphere.
Highlights
This would provide an electrical means to remote sense overshooting tops with implications for the exchange of troposphere and stratosphere
The result shows that the outbreak of negative narrow bipolar events (NBEs) in both parent thunderstorms was produced near the overshooting tops with an intense convection surge region where the significant updrafts drove the cloud top to penetrate above the tropopause
Our findings suggest that the outbreak of negative NBEs is usually associated with overshooting tops of thunderclouds
Summary
Due to their characteristic short-duration electromagnetic waveforms (10–30 μs) at very low-frequency and low-frequency (VLF/LF), and the strong radiation in the high frequency (HF) and very high frequency (VHF) bands, narrow bipolar events (NBEs), named as compact intra-cloud discharges (CIDs), have been one of the most intriguing phenomena that has received enormous interest from lightning researchers [1,2,3,4,5,6]. The intense radio signals of NBEs can penetrate into the ionosphere and can be detected by satellites in space and ground-based receivers [7,8]. NBEs are segregated into positive and negative polarities originating at different altitudes of thundercloud regions in normally electrified thunderstorms [9,10,11].
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