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Understanding streamers using density models with mesh refinement

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Presentation on theme: "Understanding streamers using density models with mesh refinement"— Presentation transcript:

1 Understanding streamers using density models with mesh refinement
Gideon Wormeester – MAC3 CWI Scientific Meeting – \ \ 1

2 Outline What are streamers? How do we model them?
Some results and conclusions \

3 What are streamers? \

4 What are streamers? High electric field creates many electron-ion pairs. Electrons move into the channel, leaving a thin, positively charged layer. Charged layer generates a high field just in front of it. E Impact ionization A+ A Excitation A* e- — — — — — — \

5 Modeling streamers Approximate particles as continuous densities, obeying drift-diffusion-reaction equations: \

6 Modeling streamers Low ne, E Smooth gradients
Large cells for performance High ne, E Steep gradients Small cells needed to resolve all details Adaptive grid refinement scheme provides high spatial resolution where it is needed Originally designed for air (C. Montijn, A. Luque, et al.), other gases need other criteria \

7 Results Main streamer properties (velocity, diameter) are remarkably insensitive to large changes in gas composition (→ this implies strongly non-linear behavior, to be investigated further) Some predictions made on streamer morphology (smoothness, branching) as a function of N2:O2 ratio, but stochastic nature requires a particle model to fully study this. Both of these points are in agreement with experiments performed at Eindhoven University. \

8 Streamer research in MAC3
At CWI Ute Ebert Willem Hundsdorfer Margreet Nool Chao Li Aram Markosyan Christoph Koehn Jannis Teunissen Gideon Wormeester External collaborators Sasa Dujko (Belgrade) Sander Nijdam (Eindhoven) Alejandro Luque (Granada) Sergey Pancheshnyi (Den Haag) \

9 Thank you for your attention!
(source: xkcd.org) \

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