Detailed Streamer Observations & Modeling of a Nearby Negative Flash
- Richard Sonnenfeld
, - Richard G Sonnenfeld,
- Daniel P Jensen,
- Luis Contreras Vidal,
- John Pantuso,
- Caitano L Da Silva,
- Cameron Clonch,
- Chloe Avitia,
- Harald E Edens
Richard G Sonnenfeld
Department of Physics and Langmuir Lab
Daniel P Jensen
Electromagnetic Sciences & Cognitive Space Applications, Los Alamos National Laboratory, Department of Physics and Langmuir Lab
Luis Contreras Vidal
Department of Physics and Langmuir Lab
John Pantuso
Department of Physics and Langmuir Lab
Caitano L Da Silva
Department of Physics and Langmuir Lab
Cameron Clonch
Department of Physics and Langmuir Lab
Chloe Avitia
Department of Physics and Langmuir Lab
Harald E Edens
Electromagnetic Sciences & Cognitive Space Applications, Los Alamos National Laboratory
Abstract
(Revised) The streamer to leader transition defines much of the physics of long sparks near atmospheric pressures. Streamer length is an important parameter in understanding lightning protection because of its link to step length and striking distance. While streamers are routinely observed in the lab, there have been only a few observations in the field. Fewer still are of natural flashes, and almost none have been observed much above sea-level.09 Dec 2023Submitted to ESS Open Archive 11 Dec 2023Published in ESS Open Archive
