2012
DOI: 10.1002/ctpp.201200041
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Development of Barrier Discharges: Operation Modes and Structure Formation

Abstract: A discharge cell configuration combining three high-end diagnostic techniques (cross-correlation spectroscopy, electro-optic Pockels effect and laser induced fluorescence spectroscopy) has been developed. The joint application of these diagnostics enables the investigation of surface and bulk processes in barrier discharges in different arrangements. Surface charge density, N2(A) metastable state density, and optical radiation of plasma as three key parameters can be measured and correlated under identical and… Show more

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Cited by 29 publications
(30 citation statements)
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“…It implies that the reappearance of microdischarges at the close places within the single halfperiod of the discharge is suppressed by the developed space charge and surface charges which were stored on the dielectric barriers during previous microdischarge event [44]. During the next half-period of the discharge the same mechanism is on the other hand responsible for the local electric field enhancement at the position of some previous microdischarge [43]. This leads to the occurrence of microdischarges at the same positions above the dielectric in following half-periods [45].…”
Section: Statistical Parameters Of Dcsbd Microdischargesmentioning
confidence: 99%
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“…It implies that the reappearance of microdischarges at the close places within the single halfperiod of the discharge is suppressed by the developed space charge and surface charges which were stored on the dielectric barriers during previous microdischarge event [44]. During the next half-period of the discharge the same mechanism is on the other hand responsible for the local electric field enhancement at the position of some previous microdischarge [43]. This leads to the occurrence of microdischarges at the same positions above the dielectric in following half-periods [45].…”
Section: Statistical Parameters Of Dcsbd Microdischargesmentioning
confidence: 99%
“…The theory of the so-called 'memory effect' [42][43][44] of DBD says that the time and space appearance of microdischarges is influenced by the remnant electric charges and the excited species in the process gas and on the surface of dielectric barriers. It implies that the reappearance of microdischarges at the close places within the single halfperiod of the discharge is suppressed by the developed space charge and surface charges which were stored on the dielectric barriers during previous microdischarge event [44].…”
Section: Statistical Parameters Of Dcsbd Microdischargesmentioning
confidence: 99%
See 1 more Smart Citation
“…This process, which has been shown to stabilize the diffusive mode of dielectric barrier discharges [12], plays an important role in an in-house experimental effort to obtain, via surface and volume diagnostics, a complete characterization of such discharges, comprising volume as well as surface processes [14]. This process, which has been shown to stabilize the diffusive mode of dielectric barrier discharges [12], plays an important role in an in-house experimental effort to obtain, via surface and volume diagnostics, a complete characterization of such discharges, comprising volume as well as surface processes [14].…”
Section: Tapping the Charge Of The Wall: Extraction Of Electronsmentioning
confidence: 99%
“…In various novel bounded plasmas [3] it seems to be however rewarding to pay more attention to these questions. Likewise it is by now also well known [10][11][12][13][14] that the wall charge plays an active role in determining the spatio-temporal structure of dielectric barrier discharges [15] and microplasmas [16,17]. Likewise it is by now also well known [10][11][12][13][14] that the wall charge plays an active role in determining the spatio-temporal structure of dielectric barrier discharges [15] and microplasmas [16,17].…”
Section: Introductionmentioning
confidence: 99%