2011
DOI: 10.1109/tps.2011.2155092
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Dynamics of Near-Atmospheric-Pressure Hydrogen Plasmas Driven by Pulsed High Voltages

Abstract: The formation mechanism of hydrogen plasmas by nanosecond high-voltage pulses at near-atmospheric pressure was examined by particle-in-cell/Monte-Carlo-collision simulations. In the model system, plasmas were generated between parallel metal electrodes. The simulation results show the propagation of ionization fronts and the formation of non-Maxwellian electron-energy distributions. The time evolution of plasma dynamics observed in the simulations has been confirmed to be in good agreement with recent experime… Show more

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Cited by 4 publications
(4 citation statements)
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“…The electric field in these conduction current plateaus is measured by the E-FISH method and found to be constant during the discharge with a value around 81 Td for all conditions investigated here. These constant discharge conditions were previously observed in hydrogen plasmas (otherwise similar discharge conditions as in this work) both in simulations and measurements [53,[60][61][62]. CARS spectra were measured for three different high voltage pulses.…”
Section: Discussionsupporting
confidence: 79%
“…The electric field in these conduction current plateaus is measured by the E-FISH method and found to be constant during the discharge with a value around 81 Td for all conditions investigated here. These constant discharge conditions were previously observed in hydrogen plasmas (otherwise similar discharge conditions as in this work) both in simulations and measurements [53,[60][61][62]. CARS spectra were measured for three different high voltage pulses.…”
Section: Discussionsupporting
confidence: 79%
“…The same behaviour is also seen for different molecular species, e.g. hydrogen [24][25][26]. This promises an easy tool for estimating the amount of vibrational excitation a priori, when one is able to predict the density and electric field for the given discharge.…”
Section: Discussionmentioning
confidence: 53%
“…Nonetheless, particle-based kinetic approaches, like the particle-in-cell method complemented by Monte Carlo collisions (PIC/ MCC), have also been applied in some studies, despite the high computational requirements, because they can describe non-local kinetic effects in domains with high reduced electric fields, and they provide access to the electron energy distribution function. Such studies include those of fast (subnanosecond) breakdown in high-voltage open discharges [12,13], discharge development in hydrogen microdischarges [14][15][16], as well as ionization instabilities [17] and selforganized pattern formation [18].…”
Section: Introductionmentioning
confidence: 99%