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New Observations and Modeling of Dart Leader Initiation and Development with Broadband Interferometric Mapping and Polarization in 3D (BIMAP-3D)
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  • Daniel Jensen,
  • Xuan-Min Shao,
  • Richard Sonnenfeld,
  • Caitano da Silva
Daniel Jensen
Langmuir Laboratory for Atmospheric Research, New Mexico Tech, Los Alamos National Laboratory

Corresponding Author:[email protected]

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Xuan-Min Shao
Los Alamos National Laboratory
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Richard Sonnenfeld
Langmuir Laboratory for Atmospheric Research, New Mexico Tech
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Caitano da Silva
Langmuir Laboratory for Atmospheric Research, New Mexico Tech
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One of the outstanding questions in lightning research is how dart leaders (also called recoil leaders or K-leaders) initiate and develop during a lightning flash. Dart leaders travel quickly (106-107 m/s) along previously ionized channels and occur intermittently in the later stage of a flash. We have recently reported some insights into dart leader initiation and development based on our BIMAP-3D observations. In this presentation we will expand on that work by combining observations and modeling to try to understand the observed dart leader behaviors. BIMAP-3D consists of two broadband interferometric mapping and polarization (BIMAP) systems that are separated by 11.5km at Los Alamos National Laboratory. Each station maps the lightning VHF sources in a 2D space, and the combination of the 2-station measurements provides a detailed 3D source map. A fast antenna is also included at each station for electric field change measurements. Our previously reported observations suggest dart leaders commonly exhibit an initial acceleration, followed by a more gradual deceleration to a stop. We also modeled the dart leader electric field change with a simple configuration of two point-charges, finding that the modeled tip charge increased in magnitude during the initial acceleration in some simple cases. We now employ a more sophisticated model to better understand the distribution of charge along the dart leader channel, and the background electric field in which the dart leader develops.
Presented at the AGU 2023 Fall Meeting
09 Dec 2023Submitted to ESS Open Archive
10 Dec 2023Published in ESS Open Archive