Citation: | Cedomir A. MALUCKOV, Sasa A. RANCEV, Miodrag K. RADOVIC. Applying the Different Statistical Tests in Analysis of Electrical Breakdown Mechanisms in Nitrogen Filled Gas Diode[J]. Plasma Science and Technology, 2016, 18(10): 978-986. DOI: 10.1088/1009-0630/18/10/03 |
1 Morgan C G. 1987, Irradiation and Time lag, In:Electrical Breakdown of Gases; edited by Meek J M,Craggs J D, Wiley, New York 2 Llewellyn-Jones F. 1983, The Development of Theories of the Electrical Breakdown of Gases, In: Electrical Breakdown and Discharges in Gases, edited by Kunhardt E E, Luessen L H, Plenum Press, New York, p.1 3 Hodges R V, Varney R N, Riley J F. 1985, Phys. Rev.A, 31: 2610 4 Markovi′ c V Lj, Goci′ c S R, Radovi′ c M K. 1999, Eur.Phys. J. AP, 6: 303 5 Moreno J, Zambra M, Favre M. 2002, IEEE Trans.Plasma Sci., 30: 417 6 Maluckov ˇ C A, Karamarkovi′ c J P, Radovi′ c M K. 2008,“Statistical Analysis of the Electrical Breakdown Time Delay Distributions in Gas Tubes at Low Pressures”,in: Plasma Physics esearch Advance. edited by Sergei Gromov, Nova Science Publishers, p.3 7 Markovi′ c V Lj, Goci′ c S R, Stamenkovi′ c S N. 2009, J.Phys. D: Appl. Phys., 42: 015207 8 Maluckov ˇ C A, Karamarkovi′ c J P, Radovi′ c M K. 2003,IEEE Trans. Plasma Sci., 31: 1344 9 Maluckov ˇ C A, Karamarkovi′ c J P, Radovi′ c M K, et al.2004, Physics of Plasmas, 11: 5328 10 Maluckov ˇ C A, Karamarkovi′ c J P, Radovi′ c M K. 2005,Contrib. Plasma Phys., 45: 118 11 Maluckov ˇ C A, Karamarkovi′ c J P, Radovi′ c M K, et al.2006, IEEE Trans. Plasma Sci., 34: 2 12 Maluckov ˇ C A, Karamarkovi′ c J P, Radovi′ c M K, et al. 2006, Physics of Plasmas, 13: 083502 13 MaluckovˇC A, Radovi′ c M K, Ranˇ cev S A, et al. 2013,Romanian Reports in Physics, 65: 1373 14 MaluckovˇC A. 2014, Radiation Effects and Defects in Solids-Incorporating Plasma Science and Plasma Technology, 169: 828 15 MaluckovˇC A, Radovi′ c M K, Radivojevi′ c D D.2015, IEEE Transactions on Dielectrics and Electrical Insulation, 22: 752 16 Pejovi′ c M M, Pejovi′ c M M, Stankovi′ c K D. 2011, Jpn.J. Appl. Phys., 50: 086001 17 Todorovi′ c M, Vasovi′ c N D, Risti′ c G S. 2012, Meas.Sci. Technol., 23: 015901 18 Wackerly D D, Mendenhall W III, Scheaffer R L. 1996,Mathematical Statistics with pplications, Duxbury Press, Belmont 19 Radovi′ c M K, MaluckovˇC A. 2001, IEEE Trans.Plasma Sci., 29: 832 20 Pejovi′ c M M, Risti′ c G S, Karamarkovi′ c J P. 2002, J.Phys. D: Appl. Phys., 35: 91 21 Ivanovi′ c E N. 2014, Vacuum, 107: 62 22 Nei′ c N T, Pejovi′ c M M, Pejovi′ c M M, et al. 2011, J.Phys. D: Appl. Phys., 44: 095203. 23 Pejovi′ c M M, Ivanovi′ c E N, Pejovi′ c M M. 2004, J.Phys. D: Appl. Phys., 37: 200 24 von Engel A. 1965, Ionized Gases. Claredon, Oxford
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