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蒲以康, Yi-Kang Pu, ‡, Zhi-Gang Guo, Zheng-De Kang, Jie Ma, Zhi-Cheng Guan, Guang-Yu Zhang, and En-Ge Wang
Pure Appl. Chem., Vol. 74, No.3, pp. 459-464, 2002.,-0001,():
-1年11月30日
Emission spectroscopy is used to investigate the effect of inert gas mixing in nitrogen plasmas generated in inductively coupled plasma (ICP) and electron cyclotron resonance (ECR) plasma sources. Vacuum ultraviolet (VUV) emission of resonance lines is used to determine concentration of atomic nitrogen while electron temperature is obtained from optical emission spectra. It is found that electron temperature can be either raised or reduced effectively by mixing helium or argon in a nitrogen discharge. Electron-electron collisions and superelastic collisions involving metastable species are key factors in electron temperature tuning.
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【期刊论文】Optical emission spectroscopy study of the influence of nitrogen on carbon nanotube growth
蒲以康, E.G. Wang a, *, Z.G. Guo b, J. Ma b, M.M. Zhou b, Y.K. Pu b, S. Liu a, G.Y. Zhang a, D.Y. Zhong a
Carbon 41(2003)1827-1831,-0001,():
-1年11月30日
In-situ optical emission spectroscopy was used to systematically study the influence of nitrogen on the growth of carbon nanotubes (CNTs) by microwave-plasma enhanced chemical vapor deposition at different CH concentrations in a CH4/N2 gas mixture. The results show that CN and C2 co-exist in the plasma and emission intensities of the two species are correlated. The morphology and microstructure of the samples vary with the CH4 concentration. Well aligned nanotubes are obtained at 20% CH4- With the participation of N2-, the CNTs present a polymerized nanobell structure. More importantly, the length and thickness of each nanobell can be modulated by varying the CH4 concentration. Without N2-, conventional cylindrical CNTs are obtained.
A., Carbon nanotubes, B., Chemical vapor deposition, C., Electron microscopy,, Raman spectroscopy
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【期刊论文】Electron Temperature Control in Inductively Coupled Nitrogen Plasmas by Adding Argon/Helium*
蒲以康, KANG Zheng-De, PU Yi-Kang
CHIN.PHYS.LETT. Vol. 19, No.8 (2002) 1139,-0001,():
-1年11月30日
A new technique, adding argon or helium into nitrogen plasma, has been used to regulate the electron temperature in an inductively coupled plasma. The electron temperature is determined by analysing the intensity ratio of two nitrogen spectrum lines. The results show that, when the total pressure is 0.7Pa, the electron temperature increases with the increase of the He partial pressure in He/N2 plasma, but the electron temperature decreases with the increase of the Ar partial pressure in Ar/N2 plasma. The regulation e ect of electron temperature is weaker in higher pressure N2/He plasma of 2.6Pa.
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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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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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