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【期刊论文】Tuning the electron temperature of a nitrogen plasma by adding helium and argon
蒲以康
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-1年11月30日
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蒲以康, MA Jie, PU Yi-Kang
CHIN.PHYS.LETT. Vol. 20, No.9 (2003) 1527,-0001,():
-1年11月30日
By using a Langmuir probe, the electron energy distribution function (EEDF) is measured in inductively coupled plasma discharges in N2/Ar mixtures at 200W rf powers. In pure N2 discharges a Maxwellian EEDF is observed. When the mixing ratio of Ar increases, the distribution of high-energy electrons evolves with a dierent trend from that of low-energy electrons, resulting in an apparent "two temperature structure" of the EEDF We discuss this non-Maxwellian EEDF and its effect on the measurement and the interpretation of "electron temperature" by both the probe and line ratio technique.
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【期刊论文】The dependence of GaN growth rate on electron temperature in an ECR plasma
蒲以康, Yi-Kang Pu a, *, Yu-Feng Ren b, Si-Ze Yang b, Daniel Dywer c, Xiao-Guang, Zhang d, Xiou-Jun Jia d
Surface and Coatings Technology 131(2000)470-473,-0001,():
-1年11月30日
Experiments on the deposition of GaN thin films were carried out in an ECR plasma reactor using nitrogen gas and Trimethylgallium MG.as precursors. Electron temperature and nitrogen species adjacent to the substrate surface during deposition were measured by a CCD spectrometer. We observed an optimum electron temperature for the growth rate. The result suggests that tuning of electron energyor temperature. can be used to optimize the deposition and electron temperature near the substrate surface may be a candidate for one of the control parameters in plasma-assisted CVD.
GaN, Plasma-assisted CVD, Electron temperature
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【期刊论文】Study on an atmospheric pressure glow discharge
蒲以康, Xinxin Wang, Chengrong Li, Mingze Lu and Yikang Pu
Plasma Sources Sci. Technol. 12(2003)358-361,-0001,():
-1年11月30日
Experiments were performed on an atmospheric pressure glow discharge (APGD) in an air gap between two dielectric barrier electrodes. While it is possible to get an APGD in a 2mm air gap, it is possible to get only a filament discharge in a 5mm air gap. The development of an electron avalanche in such a gap was numerically simulated. It was found that the critical applied field for a 5mm electron avalanche to transit to a streamer is equal to 35.07kVcm-1. This calculated critical applied field is in good agreement with the experimental one. The experimental and theoretical results confirm that only a filament discharge, rather than a glow discharge, can be produced in an atmospheric pressure air gap that is not less than 5mm if it is not possible to lower the breakdown field of air. A resistive barrier discharge (RBD) was theoretically analysed and the development of RBD was numerically simulated. If a kilohertz discharge is required, the parameters of the resistive layer should be in the rangeρεr=(109-1011)Ωcm. APGD in a helium gap was realized using 50Hz line power with a suitably fabricated resistive layer.
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