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中文摘要:
Atmospheric pressure glow discharges were generated in an air gap between a needle cathode and a water anode.Through changing the ballast resistor and gas gap width between the electrodes,it has been found that the discharges are in normal glow regime judged from the currentvoltage characteristics and visualization of the discharges.Results indicate that the diameter of the positive column increases with increasing discharge current or increasing gap width.Optical emission spectroscopy is used to calculate the electron temperature and vibrational temperature.Both the electron temperature and the vibrational temperature increases with increasing discharge current or increasing gap width.Spatially resolved measurements show that the maxima of electron temperature and vibrational temperature appeared in the vicinity of the needle cathode.
英文摘要:
Atmospheric pressure glow discharges were generated in an air gap between a needle cathode and a water anode. Through changing the ballast resistor and gas gap width between the electrodes, it has been found that the discharges are in normal glow regime judged from the currentvoltage characteristics and visualization of the discharges. Results indicate that the diameter of the positive column increases with increasing discharge current or increasing gap width. Optical emission spectroscopy is used to calculate the electron temperature and vibrational temperature. Both the electron temperature and the vibrational temperature increases with increasing discharge current or increasing gap width. Spatially resolved measurements show that the maxima of electron temperature and vibrational temperature appeared in the vicinity of the needle cathode.
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Investigation on the micro-discharge characteristics of dielectric barrier discharge in a needle-pla
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