2012
DOI: 10.1088/0963-0252/22/1/015012
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Ionization by bulk heating of electrons in capacitive radio frequency atmospheric pressure microplasmas

Abstract: Electron heating and ionization dynamics in capacitively coupled radio frequency (RF) atmospheric pressure microplasmas operated in helium are investigated by Particle in Cell simulations and semi-analytical modeling. A strong heating of electrons and ionization in the plasma bulk due to high bulk electric fields are observed at distinct times within the RF period. Based on the model the electric field is identified to be a drift field caused by a low electrical conductivity due to the high electron-neutral co… Show more

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Cited by 81 publications
(108 citation statements)
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“…At low powers, the maximum bulk field is about 1/3 of the maximum field at the wall while at high powers, the bulk field is small due to the high density. This effect is captured by the previous global model [18] and has been discussed in [16]. The implication is that even at the lowest power in the base case, most of the metastable production corresponds spatially to the high-field sheath regions.…”
Section: Pic Simulation Resultsmentioning
confidence: 70%
See 1 more Smart Citation
“…At low powers, the maximum bulk field is about 1/3 of the maximum field at the wall while at high powers, the bulk field is small due to the high density. This effect is captured by the previous global model [18] and has been discussed in [16]. The implication is that even at the lowest power in the base case, most of the metastable production corresponds spatially to the high-field sheath regions.…”
Section: Pic Simulation Resultsmentioning
confidence: 70%
“…The second term on the right-hand side can be important at low currents and high frequencies, as will be seen in the next section; it essentially represents a phase shift between J and E [16]. However, in most cases, we have the simpler result n 2 e T e = m He 6 e 3 J 2 ,…”
Section: Electron Power Balance and CL Sheathmentioning
confidence: 94%
“…At high pressures, e.g. in atmospheric pressure microplasmas, the ionization may be dominated by ohmic heating in the bulk ( -mode) [14]. In single-frequency (SF) discharges with high electronegativity, the drift-ambipolar (DA) operation mode has recently been identified and its physical origin has been clarified [15].…”
mentioning
confidence: 99%
“…比如, Boisvert等人 [21,22] 最近的实验 表明, 大气压氦气介质阻挡放电在中频域存在两种放 电模式, 即击穿电压以上的混合模式和击穿电压附近 的Ω模式. 所谓Ω模式是指在较高频率下, 电子密度最 大值及光发射最大值均出现在气隙中部的放电模式, 其电子能量主要来自气隙中部的欧姆加热 [26][27][28]…”
Section: 目前 人们对中频域的放电模式还不是特别清楚unclassified