On the difficulty of N(S-4) atom recombination to explain the appearance of the pink afterglow in a N-2 flowing discharge

Loureiro J; Sa PA; Guerra V

首页> 外文期刊>Journal of Physics, D. Applied Physics: A Europhysics Journal >On the difficulty of N(S-4) atom recombination to explain the appearance of the pink afterglow in a N-2 flowing discharge

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On the difficulty of N(S-4) atom recombination to explain the appearance of the pink afterglow in a N-2 flowing discharge

机译：N（S-4）原子重组难以解释N-2流动放电中粉红色余辉的出现

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The possibility that the pink afterglow (PA) of a flowing nitrogen discharge occurs as a result of recombination of N(S-4) atoms is evaluated and discussed, based on a detailed kinetic model for a microwave discharge and post-discharge. The present simulation shows that the N-2(+)(B(2)Sigma(u)(+), u) states responsible for the emission of the PA cannot be created via an indirect mechanism initiated with atomic recombination. Alternatively, it is indicated that the PA may have its origin in non-resonant vibration-vibration energy-exchange processes between N-2(X (1)Sigma(g)(+), v) molecules, which lead to an overpopulation of high levels of the vibrational manifold.

机译：基于微波放电和放电后的详细动力学模型，评估并讨论了由于N（S-4）原子的重组而导致流动的氮气放电发生粉红色余辉（PA）的可能性。本模拟显示，负责PA发射的N-2（+）（B（2）Sigma（u）（+），u）状态无法通过原子重组引发的间接机制创建。或者，表明PA可能起源于N-2（X（1）Sigma（g）（+），v）个分子之间的非共振振动-振动能量交换过程，从而导致PA的过度繁殖。高水平的振动歧管。

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《Journal of Physics, D. Applied Physics: A Europhysics Journal》 |2006年第1期|共4页
作者
Loureiro J; Sa PA; Guerra V;
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正文语种 eng
中图分类应用物理学;
关键词
OPTICALLY PUMPED PLASMAS; SHORT-LIVED AFTERGLOW; NITROGEN-ATOMS; GLOW-DISCHARGE; ABSORPTION-SPECTROSCOPY; MICROWAVE-DISCHARGE; ENERGY-TRANSFER; KINETIC-MODEL; MOLECULES; IONIZATION;

机译：光学泵等离子体;残存的余辉;氮原子;辉光放电;吸收光谱;微波放电;能量传递;动力学模型;分子;电离;

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1. On the difficulty of N(S-4) atom recombination to explain the appearance of the pink afterglow in a N-2 flowing discharge [J] . Loureiro J, Sa PA, Guerra V Journal of Physics, D. Applied Physics: A Europhysics Journal . 2006,第1期

机译：N（S-4）原子重组难以解释N-2流动放电中粉红色余辉的出现
2. Inactivation of Escherichia coli in the flowing afterglow of an N-2 discharge at reduce pressure: study of the destruction mechanisms of bacteria and hydrodynamics of the afterglow flow [J] . Cousty S, Villeger S, Sarette JP, The European physical journal. Applied physics . 2006,第2期

机译：N-2排放物在减压下流动的余辉中的大肠杆菌失活：细菌破坏机理和余辉流的流体动力学研究
3. Kinetics of N-2(A (3)Sigma(+)(u)) molecules and ionization mechanisms in the afterglow of a flowing N-2 microwave discharge [J] . Sadeghi N., Supiot P., Foissac C. Journal of Physics, D. Applied Physics: A Europhysics Journal . 2001,第12期

机译：N-2（A（3）Sigma（+）（u））分子的动力学和流动的N-2微波放电余辉中的电离机理
4. Application of Langmuir Probe for Study of Recombination of D_3 + Ions with Electrons in He-Ar-D_2 Stationary and Flowing Afterglow Plasma [C] . M. Tichy, V. Poterya, R. Plasil, International Congress on Plasma Physics . 2003

机译：Langmuir探针在He-Ar-D_2中的静态和流动血浆中的D_3 +离子重组研究的应用
5. Electron-ion recombination measurements in a flowing afterglow plasma. [D] . Gougousi, Theodosia. 1996

机译：流动的余辉等离子体中的电子离子重组测量。
6. Electron-Ion Recombination Rate Coefficient Measurements in a Flowing Afterglow Plasma [O] . Golde Michael F., Johnsen Rainer, Gougousi Theodosia 1996

机译：流动余辉等离子体中的电子离子复合速率系数测量
7. Electron-Ion Recombination Rate Coefficient Measurements in a Flowing Afterglow Plasma [R] . Gougousi, T. , Golde, M. F. , Johnsen, R. 1996

机译：流动余辉等离子体中的电子 - 离子重组率系数测量

On the difficulty of N(S-4) atom recombination to explain the appearance of the pink afterglow in a N-2 flowing discharge

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