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Adopting the plasma kinetic model, we perform a numerical calculation of evolution characteristics in N2/O2 plasma with various reduced electric fields. The results show that there is an approximate linear relation between electron average energy and reduced electric field, the electron average energy is 2.6 eV and its maximum is 35 eV when reduced electric field is 100 Td, and reduced electric field has a strong influence on electron energy distributing function. The number densities of nitrogen molecules and atoms, oxygen atoms in electronic excited state reach their peaks when discharge is over, then drop off; but the number density of nitrogen molecules in vibrational excitation remains unchanged after discharge; oxygen atoms recombine into ozone molecules. With the increase of reduced electric field, the number density of vibration excitated nitrogen molecules reduces because of the decrease of the number of electrons with low energy, but other particles are increasing. The number densities of vibrational excitated nitrogen molecules are 3.831011cm-3, 1.981011cm-3 and 1.771011 cm-3 when reduced electric fields are set to be 50 Td, 75 Td and 100 Td respectively.
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Keywords:
- plasma /
- reduced electric field /
- particle evolution /
- numerical simulation
[1] Lan Y D, He L M, Ding W, Wang F 2010 Acta Phys. Sin. 59 2617(in Chinese)[兰宇丹、何立明、丁 伟、王 峰 2010 59 2617]
[2] Yu Y, Chen X M, Cao Z R, Wu W D 2010 Acta Phys. Sin. 59 3892(in Chinese)[吕 瑛、陈熙萌、曹柱荣、吴卫东 2010 59 3892]
[3] Ding W, He L M, Song Z X 2010 High Volt. Engin. 36 745(in Chinese) [丁 伟、何立明、宋振兴 2010 高电压技术 36 745]
[4] Niessen W, Wolf O, Schruft R 1998 J. Phys. D: Appl. Phys. 31 542
[5] Mintusov E, Serdyuchenko A, Choi I, Lempert W R, Adamovich I V 2008 46th Aerospace Sciences Meeting and Exhibit, 7-10 January 2008, Reno, NV. AIAA 2008-1106
[6] Mruthunjaya U 2008 Doctor Dissertation, Ohio State University USA
[7] Shibkov V M, Konstantinovskij R S 2005 43rd AIAA Aerospace Sciences Meeting and Exhibit, 10-13 January 2005, Reno, Nevada. AIAA 2005-987
[8] Flitti A, Pancheshnyi S 2009 The Euro. Phys. J. Appl. Phys. 45 21001
[9] Bozhenkov S A, Starikovskaia S M, Starikovskii A Y 2003 Combust. and Flame 133 133
[10] Pancheshnyi S, Eismann B, Hagelaar G J M, Pitchford L C 2008 University of Toulouse, LAPLACE CNRS-UPS-INP, Toulouse, France
[11] Ding W 2010 Ph. D. Dissertation (Xi’an: Air Force Engineering University) (in Chinese)[丁 伟 2010 博士学位论文 (西安:空军工程大学)]
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[1] Lan Y D, He L M, Ding W, Wang F 2010 Acta Phys. Sin. 59 2617(in Chinese)[兰宇丹、何立明、丁 伟、王 峰 2010 59 2617]
[2] Yu Y, Chen X M, Cao Z R, Wu W D 2010 Acta Phys. Sin. 59 3892(in Chinese)[吕 瑛、陈熙萌、曹柱荣、吴卫东 2010 59 3892]
[3] Ding W, He L M, Song Z X 2010 High Volt. Engin. 36 745(in Chinese) [丁 伟、何立明、宋振兴 2010 高电压技术 36 745]
[4] Niessen W, Wolf O, Schruft R 1998 J. Phys. D: Appl. Phys. 31 542
[5] Mintusov E, Serdyuchenko A, Choi I, Lempert W R, Adamovich I V 2008 46th Aerospace Sciences Meeting and Exhibit, 7-10 January 2008, Reno, NV. AIAA 2008-1106
[6] Mruthunjaya U 2008 Doctor Dissertation, Ohio State University USA
[7] Shibkov V M, Konstantinovskij R S 2005 43rd AIAA Aerospace Sciences Meeting and Exhibit, 10-13 January 2005, Reno, Nevada. AIAA 2005-987
[8] Flitti A, Pancheshnyi S 2009 The Euro. Phys. J. Appl. Phys. 45 21001
[9] Bozhenkov S A, Starikovskaia S M, Starikovskii A Y 2003 Combust. and Flame 133 133
[10] Pancheshnyi S, Eismann B, Hagelaar G J M, Pitchford L C 2008 University of Toulouse, LAPLACE CNRS-UPS-INP, Toulouse, France
[11] Ding W 2010 Ph. D. Dissertation (Xi’an: Air Force Engineering University) (in Chinese)[丁 伟 2010 博士学位论文 (西安:空军工程大学)]
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