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Optical and radio signatures of negative gigantic jets: Cases from Typhoon Lionrock (2010)

Authors :
Shu Chun Chang
Y. J. Wu
Chun-Chieh Wu
Cheng Ling Kuo
A. Chen
Jung Kuang Chou
Rue Rou Hsu
Han Tzong Su
L. J. Lee
Sung Ming Huang
Source :
Journal of Geophysical Research: Space Physics. 117
Publication Year :
2012
Publisher :
American Geophysical Union (AGU), 2012.

Abstract

[1] On 31 August 2010, more than 100 transient luminous events were observed to occur over Typhoon Lionrock when it passed at ∼210 km to the southwest of the NCKU site in Taiwan. Among them, 14 negative gigantic jets (GJs) with clear recognizable morphologies and radio frequency signals are analyzed. These GJs are all found to have negative discharge polarity and thus are type I GJs. Morphologically, they are grouped into three forms: tree-like, carrot-like, and a new intermediate type called tree-carrot-like GJs. The ULF and ELF/VLF band signals of these events contain clear signatures associated with GJ development stages, including the initiating lightning, the leading jet, the fully developed jet, and the trailing jet. Though the radio waveform for each group of GJs always contains a fast descending pulse linked with the surge current upon the GJ-ionosphere contact, the detailed waveforms actually vary substantially. Cross analysis of the optical and radio frequency signals for these GJs indicates that a large surge current moment (CM) (>60 kA-km) appears to be essentially associated with the tree-like GJs. In contrast, the carrot-like and the tree-carrot-like GJs are both related to a surge CM less than 36 kA-km, and a continuing CM less than 27 kA-km further separates the carrot-like GJs from the tree-carrot-like GJs. Furthermore, on the peak CM versus charge moment change diagram for the initiating lightning, different groups of GJs seem to exhibit different trends. This feature suggests that the eventual forms of negative GJs may have been determined at the initiating lightning stage.

Details

ISSN :
01480227
Volume :
117
Database :
OpenAIRE
Journal :
Journal of Geophysical Research: Space Physics
Accession number :
edsair.doi...........7700320996a3a41eb7645cdb7aebab65