L. Stollenwerk scite author profile

We report on pattern formation phenomena in the filamentary dielectric barrier discharge between plane glass electrodes. It is for the first time that a three-dimensional (3D) self-organized glow pattern was both observed in an actual experiment and directly calculated in a full 3D discharge simulation in a quantitative manner. Specifically, we investigate the genesis of periodic patterns during the first breakdowns. Despite our simple drift-diffusion discharge model, the correspondence of experimental and numerical findings is surprisingly good.

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Surface charge accumulation and discharge development in diffuse and filamentary barrier discharges operating in He, N₂and mixtures

Bogaczyk¹,

Wild²,

Stollenwerk³

et al. 2012

J. Phys. D: Appl. Phys.

104

105

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Spatially Resolved Surface-Charge Measurement in a Planar Dielectric-Barrier Discharge System

2007

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We investigate a laterally extended dielectric helium discharge system with plane electrodes. The system is operated in the glow mode and is known to exhibit a rich variety of self-organized lateral patterns in the current distribution, most of them being filamentary. It is known from theory that surface charges on the dielectrics play a major role for the emerging patterns. In this work we present a method to measure the spatial charge distribution on the dielectrics via the Pockels effect of a bismuth-silicon-oxide crystal. The experimental results of the surface-charge distribution measurements are in good agreement with previous numerical solutions of the corresponding transport equations.

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Interaction of current filaments in dielectric barrier discharges with relation to surface charge distributions

Stollenwerk¹

2009

New J. Phys.

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Abstract. In a planar, laterally extended dielectric barrier discharge (DBD) system operated in glow mode, a filamentary discharge is observed. The filaments tend to move laterally and hence tend to cause collisions. Thereby, usually one collision partner becomes destroyed. In this paper, the collision process and especially the preceding time period is investigated. Beside the luminescence density of the filaments, the surface charge density accumulated between the single breakdowns of the DBD is observed via an optical measurement technique based on the linear electro-optical effect (pockels effect). A ring-like substructure of the surface charge distribution of a single filament is found, which correlates to the filament interaction behaviour. Furthermore, a preferred filament distance is found, suggesting the formation of a filamentary quasi-molecule.

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Phase-resolved measurement of electric charge deposited by an atmospheric pressure plasma jet on a dielectric surface

Wild

Gerling

Bussiahn

et al. 2013

J. Phys. D: Appl. Phys.

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L. Stollenwerk

Measurement and 3D Simulation of Self-Organized Filaments in a Barrier Discharge

Surface charge accumulation and discharge development in diffuse and filamentary barrier discharges operating in He, N₂and mixtures

Spatially Resolved Surface-Charge Measurement in a Planar Dielectric-Barrier Discharge System

Interaction of current filaments in dielectric barrier discharges with relation to surface charge distributions

Phase-resolved measurement of electric charge deposited by an atmospheric pressure plasma jet on a dielectric surface

Contact Info

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About

L. Stollenwerk

Measurement and 3D Simulation of Self-Organized Filaments in a Barrier Discharge

Surface charge accumulation and discharge development in diffuse and filamentary barrier discharges operating in He, N2and mixtures

Spatially Resolved Surface-Charge Measurement in a Planar Dielectric-Barrier Discharge System

Interaction of current filaments in dielectric barrier discharges with relation to surface charge distributions

Phase-resolved measurement of electric charge deposited by an atmospheric pressure plasma jet on a dielectric surface

Contact Info

Product

Resources

About

Surface charge accumulation and discharge development in diffuse and filamentary barrier discharges operating in He, N₂and mixtures