| Literature DB >> 32216418 |
B M Hare1,2, O Scholten1,2,3, J Dwyer4, U Ebert5,6, S Nijdam6, A Bonardi7, S Buitink7,8, A Corstanje7,8, H Falcke7,9,10,11, T Huege8,12, J R Hörandel7,8,9, G K Krampah8, P Mitra8, K Mulrey8, B Neijzen1, A Nelles13,14, H Pandya8, J P Rachen8, L Rossetto7, T N G Trinh15, S Ter Veen10, T Winchen8.
Abstract
We use the Low Frequency Array (LOFAR) to probe the dynamics of the stepping process of negatively charged plasma channels (negative leaders) in a lightning discharge. We observe that at each step of a leader, multiple pulses of vhf (30-80 MHz) radiation are emitted in short-duration bursts (<10 μs). This is evidence for streamer formation during corona flashes that occur with each leader step, which has not been observed before in natural lightning and it could help explain x-ray emission from lightning leaders, as x rays from laboratory leaders tend to be associated with corona flashes. Surprisingly, we find that the stepping length is very similar to what was observed near the ground, however with a stepping time that is considerably larger, which as yet is not understood. These results will help to improve lightning propagation models, and eventually lightning protection models.Entities:
Year: 2020 PMID: 32216418 DOI: 10.1103/PhysRevLett.124.105101
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161