2019
DOI: 10.1063/1.5050259
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Characteristic study of a transient spark driven by a nanosecond pulse power in atmospheric nitrogen using a water cathode

Abstract: In this paper, a transient spark discharge is presented driven by a nanosecond pulse power with a needle-water electrode configuration in atmospheric nitrogen. The transient spark discharge concludes three phases, described as the streamer phase, the streamer-to-spark transition phase, and the spark phase. The amplitude of pulse voltage has a significant influence on the characteristics of the transient spark discharge. The streamer-to-spark transition time shortens with the increase of pulse voltage, and the … Show more

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Cited by 15 publications
(16 citation statements)
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“…Therefore, the measured voltage during the streamer‐to‐spark transition is related to the voltage of capacitors. When a direct grounding configuration is used, a transient spark discharge can be achieved, which is shown in Figure a,b, whose characteristics have been reported in our previous work . And in the direct grounding configuration, the streamer phase of the transient spark discharge dominates at a low pulse voltage (<28 kV), and the current of the streamer is higher than that of the spark.…”
Section: Resultssupporting
confidence: 70%
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“…Therefore, the measured voltage during the streamer‐to‐spark transition is related to the voltage of capacitors. When a direct grounding configuration is used, a transient spark discharge can be achieved, which is shown in Figure a,b, whose characteristics have been reported in our previous work . And in the direct grounding configuration, the streamer phase of the transient spark discharge dominates at a low pulse voltage (<28 kV), and the current of the streamer is higher than that of the spark.…”
Section: Resultssupporting
confidence: 70%
“…Spectrum at 656 nm corresponding to the H α line is used to calculate the electron density, and the relation between the electron density n e and the full width at the half area (FWHA) of the line profile is obtained by the following equation: nnormale=1017×(ΔλsFWHA/1.098)1.47135,where ΔitalicλnormalsFWHA denotes the Stark broadening expressed in FWHA. The Stark broadening in FWHA ΔitalicλnormalsFWHA can be determined through Equation , as the H α line in our experiment is approximate to a Lorentzian profile ΔλsFWHA=ΔitalicλFWHAΔitalicλvdW.…”
Section: Resultsmentioning
confidence: 99%
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“…where the electron density is n e in cm −3 , and the Stark broadening is at its full width at half area ∆λ A S in nm. A deconvolution of the measured line profile and the determination of ∆λ A S was performed as described in [26][27][28]. In this experiment, nitrogen with the addition of 1% hydrogen (Linde AG, Pullach, Germany, ≥99.999%) was used as a working gas, and measurements were taken at a distance of 2 mm from the nozzle.…”
Section: Electron Densitymentioning
confidence: 99%