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3D fluid modeling of positive streamer discharges in air with stochastic photoionization

Robert Marskar

2020Plasma Sources Science and Technology48 citationsDOIOpen Access PDF

Abstract

Abstract Streamer discharges are thin plasma channels that precede lightning and sparks. They usually evolve in bundles as stochastic tree-like structures and are inherently difficult to model due to their multiscale nature. In this paper, we perform a computer investigation of positive streamer discharges in air using contemporary photoionization models. We report on three-dimensional computer simulations under conditions that are available in laboratory spark-gap experiments. The solutions demonstrate a multiscale morphology consisting of streamer fluctuations, branching, and the formation of a discharge tree. Some branches are comparatively thick and noisy, while others are thin, smooth, and carry electric fields exceeding 250 kV cm −1 at their tips. Our results are consistent with past experiments and clarify the puzzling branching dynamics and stochastic morphology of positive streamer discharges.

Topics & Concepts

PhotoionizationPlasmaStreamer dischargeElectric fieldBranching (polymer chemistry)Computational physicsStatistical physicsStochastic modellingLightning (connector)Stochastic processPhysicsMechanicsAtmospheric electricityOpticsMaterials scienceDynamics (music)IonPlasma diagnosticsComputer modellingPlasma Applications and DiagnosticsLightning and Electromagnetic PhenomenaHigh voltage insulation and dielectric phenomena
3D fluid modeling of positive streamer discharges in air with stochastic photoionization | Litcius