2001
DOI: 10.1016/s0584-8547(01)00329-9
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Spectral, spatial and temporal characteristics of a millisecond pulsed glow discharge: metastable argon atom production

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Cited by 61 publications
(72 citation statements)
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“…This hypothesis has been confirmed by an optical investigation performed in this lab, in which charge transfer processes were found to maximize at ϳ5 mm and decrease sharply with increasing distance [32]. Penning ionization, however, exhibits a different spatial profile because the metastable argon atom density is distributed more evenly throughout the negative glow region [11]. For this reason, Penning ionization is expected to exhibit a more moderate decrease with increasing distance.…”
Section: Spatial Characteristics Of P()mentioning
confidence: 62%
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“…This hypothesis has been confirmed by an optical investigation performed in this lab, in which charge transfer processes were found to maximize at ϳ5 mm and decrease sharply with increasing distance [32]. Penning ionization, however, exhibits a different spatial profile because the metastable argon atom density is distributed more evenly throughout the negative glow region [11]. For this reason, Penning ionization is expected to exhibit a more moderate decrease with increasing distance.…”
Section: Spatial Characteristics Of P()mentioning
confidence: 62%
“…As a direct consequence of the recombination the Ar ϩ population, as evidenced by the ion intensity (Figure 5), suffered a sharp decrease upon the power termination, eliminating charge transfer from being a major ionization mechanism in the afterpeak regime. Meanwhile, the recombination of argon ions and electrons followed by radiative decay produces a large population of metastable argon atoms, which in turn greatly enhances Penning ionization [11,12] to the point that it becomes the dominant ionization process in the afterpeak regime [27].…”
Section: Temporal Characteristics Of P() Over a Pulse Cyclementioning
confidence: 99%
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“…By using a pulsed GD, it is possible to achieve a high instantaneous pulse power, avoiding over heating of the cathode [12][13][14] and generating different temporal regimes [15,16]. These regimes, prepeak, plateau, and afterglow, provide different information about the composition of a sample [17].…”
Section: Introductionmentioning
confidence: 99%
“…Studies have been conducted to examine the temporal and spatial emission characteristics occurring in pulsed glow discharges and the possibility of temporal separation of different ionisation and excitation processes over the pulse cycle (for example electron and Penning ionisation) has been demonstrated. King and co-workers [70,71] observed no pre-peak in pulsed millisecond dc profiles of copper atom transitions, whereas each transition resulted in an after-peak. Previous emission reports from a pulsed rf-GD [68] showed a series of anomalies (presence of prepeaks and absence of after-peaks) in some copper emission transitions, not previously observed using the dc-GD counterpart.…”
Section: Pulsed Rf-gdmentioning
confidence: 99%