Self-organized pattern formation of an atmospheric pressure plasma jet in a dielectric barrier discharge configuration

Nie, Qiulin; Ren, Chunsheng; Wang, De Zhen; Li, Shou-Zhe; Zhang, Jialiang; Kong, Michael G.

doi:10.1063/1.2745204

Cited by 41 publications

(26 citation statements)

References 24 publications

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“…The above pattern structures are much similar to the experimental results. 16,24 It is worth mentioning that each discharge state presented in Fig. 2 is calculated over 100 periods or even over 200 periods (depending on the applied voltage amplitudes) to reach stable state.…”

Section: -2mentioning

confidence: 99%

“…A variety of self-organized patterns, such as the one-dimensional pattern, 16 concentric-ring, 17 spiral pattern, 18 hexagon, 19 etc., [20][21][22] have been found in various atmospheric-pressure systems, even in the atmosphericpressure plasma jet. 23,24 However, because the patterned discharge is very sensitive to controlling parameters, and a small variation in discharge parameters may cause the discharge behavior to change from a self-organized pattern to another one, even from a stationary structure to a dynamical structure, the physical mechanisms and discharge conditions that result in various self-organized patterns, as well as the temporal-spatial evolutions of patterned discharge are still not understood completely. Recently, although selforganized patterns in atmospheric-pressure DBDs have been investigated increasingly, 21,25-27 a great deal of in-depth studies on this issue are still very needed, especially the simulation studies which is the most effective way of exploring the formation and dynamics of self-organized patterns in atmospheric-pressure DBD system.…”

Section: Introductionmentioning

confidence: 99%

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Simulation study of one-dimensional self-organized pattern in an atmospheric-pressure dielectric barrier discharge

Zhang

Wang

2015

Physics of Plasmas

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A two-dimensional fluid model is developed to simulate the one-dimensional self-organized patterns in an atmospheric-pressure dielectric barrier discharge (DBD) driven by sinusoidal voltage in argon. Under certain conditions, by changing applied voltage amplitude, the transversely uniform discharge can evolve into the patterned discharge and the varied self-organized patterned discharges with different numbers and arrangements of discharge channels can be observed. Similar to the uniform atmospheric-pressure DBD, the patterned discharge mode is found to undergo a transition from Townsend regime, sub-glow regime to glow regime with increasing applied voltage amplitude. In the different regimes, charged particles and electric field display different dynamical behaviors. If the voltage amplitude is increased over a certain value, the discharge enters an asymmetric patterned discharge mode, and then transforms into the spatially chaotic state with out-oforder discharge channels. The reason for forming the one-dimensional self-organized pattern is mainly due to the so-called activation-inhibition effect resulting from the local high electron density region appearing in discharge space. Electrode arrangement is the reason that induces local high electron density. V C 2015 AIP Publishing LLC. [http://dx.

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Section: -2mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Simulation study of one-dimensional self-organized pattern in an atmospheric-pressure dielectric barrier discharge

Zhang

Wang

2015

Physics of Plasmas

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“…[15][16][17][18] Studies of atmospheric plasma jets have also furthered the current understanding of their generation mechanisms. 19,20 In this letter, we report a simple device with a floating electrode configuration to generate a cold atmospheric Ar plasma jet powered by a sinusoidal excitation voltage at 48 kHz. This plasma jet generator has no additional impedance matching tuner and can produce a mild cold Ar plasma jet with long plume length, low-working voltage, and long operation period.…”

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confidence: 99%

A simple cold Ar plasma jet generated with a floating electrode at atmospheric pressure

Nie

Ren

Wang

et al. 2008

Applied Physics Letters

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105

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An experimental study is presented of a cold atmospheric Ar plasma jet with distinct advantages of low-working voltage and high plasma stability. To effectively improve the performance of the jet, a pair of pin electrodes with one floating in the air is applied. Variation in the applied voltage and/or the Ar gas flow causes the transition of the jet plasma from ignition, through stable plume to an unstable stage. The characteristics of the jet discharge are also studied by means of the electrical and spectroscopic diagnosis.

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“…Some forms of dielectric barrier discharges show interesting self-organized structures [7][8][9], which are understood to some extent through numerical simulations. A steady-state atmospheric pressure DBD has been made with cm-scale filament structures at ~10 kV and 45 kHz [10], but these structures do not move or branch like those in a plasma ball.…”

Section: Introductionmentioning

confidence: 99%

Measurements of the Motion of Plasma Filaments in a Plasma Ball

Campanell¹,

Provost²,

Vasquez³

et al. 2010

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Measurements were made of the motion of the filamentary structures in a plasma ball using high speed cameras and other optical detectors. These filaments traverse the ball radially at ~10 6 cm/sec at the driving frequency of ~26 kHz, and drift upward through the ball at ~1 cm/sec. Varying the applied high voltage and frequency caused the number, length, and diameter of the filaments to change. A custom plasma ball was constructed to observe the effects of varying gas pressure and species on the filament structures.2

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Self-organized pattern formation of an atmospheric pressure plasma jet in a dielectric barrier discharge configuration

Cited by 41 publications

References 24 publications

Simulation study of one-dimensional self-organized pattern in an atmospheric-pressure dielectric barrier discharge

Simulation study of one-dimensional self-organized pattern in an atmospheric-pressure dielectric barrier discharge

A simple cold Ar plasma jet generated with a floating electrode at atmospheric pressure

Measurements of the Motion of Plasma Filaments in a Plasma Ball

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