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Table of contents of journal: *IEEE transactions on plasma science

Results: 1-25/1674

Authors: Briehl, B Urbassek, HA
Citation: B. Briehl et Ha. Urbassek, Note on boundary conditions in plasma sheath simulations using the particle-in-cell algorithm, IEEE PLAS S, 29(5), 2001, pp. 809-814

Authors: Dorsey, DJ Freeman, BL
Citation: Dj. Dorsey et Bl. Freeman, Comparison of sulfur hexafluoride and synthetic air in a simulated flux compression generator environment, IEEE PLAS S, 29(5), 2001, pp. 815-819

Authors: Savilov, AV
Citation: Av. Savilov, Stimulated wave scattering in the Smith-Purcell FEL, IEEE PLAS S, 29(5), 2001, pp. 820-823

Authors: Seo, JH Chung, WJ Yoon, CK Kim, JK Whang, KW
Citation: Jh. Seo et al., Two-dimensional modeling of a surface type alternating current plasma display panel cell: Discharge dynamics and address voltage effects, IEEE PLAS S, 29(5), 2001, pp. 824-831

Authors: Radovic, MK Maluckov, CA
Citation: Mk. Radovic et Ca. Maluckov, Statistical analysis of the dynamic voltage electrical breakdown in nitrogen, IEEE PLAS S, 29(5), 2001, pp. 832-836

Authors: Dastgeer, S Lee, JK Kim, HC Kim, YH
Citation: S. Dastgeer et al., Efficiency improvement of high-pressure microplasma by an electron beam, IEEE PLAS S, 29(5), 2001, pp. 837-843

Authors: Beilis, II
Citation: Ii. Beilis, A mechanism for nanosecond cathode spot operation in vacuum arcs, IEEE PLAS S, 29(5), 2001, pp. 844-847

Authors: Calame, JR Danly, BG Levush, B Blank, M Felch, KL Nguyen, KT
Citation: Jr. Calame et al., Simulation of beam collector nonuniformities in gyro-amplifiers, IEEE PLAS S, 29(5), 2001, pp. 848-860

Authors: Hur, MS Lee, JK Kim, HC Kang, BK
Citation: Ms. Hur et al., The effective coefficient of secondary electron emission in plasma displaypanel, IEEE PLAS S, 29(5), 2001, pp. 861-863

Authors: Wang, JM Anders, A Boxman, RL
Citation: Jm. Wang et al., Guest editorial - Special issue on vacuum discharge plasmas, IEEE PLAS S, 29(5), 2001, pp. 654-656

Authors: Beilis, II
Citation: Ii. Beilis, State of the theory of vacuum arcs, IEEE PLAS S, 29(5), 2001, pp. 657-670

Authors: Tsuruta, K Tanaka, N Kido, H Hirai, K Yanagidaira, T
Citation: K. Tsuruta et al., Ignition and instability of low-current DC vacuum arcs ignited by the opening of the electrodes, IEEE PLAS S, 29(5), 2001, pp. 671-674

Authors: Shkol'nik, SM
Citation: Sm. Shkol'Nik, Arc discharges with gas-impregnated cathodes in vacuum, IEEE PLAS S, 29(5), 2001, pp. 675-683

Authors: Keidar, M Schulman, MB
Citation: M. Keidar et Mb. Schulman, Modeling the effects of an axial magnetic field on the vacuum arc, IEEE PLAS S, 29(5), 2001, pp. 684-689

Authors: Beilis, II Boxman, RL Goldsmith, S
Citation: Ii. Beilis et al., A hot refractory anode vacuum arc: Nonstationary plasma model, IEEE PLAS S, 29(5), 2001, pp. 690-694

Authors: Afanas'ev, VP Chaly, AM Logatchev, AA Shkol'nik, SM Zabello, KK
Citation: Vp. Afanas'Ev et al., Computer-aided reconstruction of cathode images obtained by high speed photography of high current vacuum arcs, IEEE PLAS S, 29(5), 2001, pp. 695-699

Authors: Gidalevich, E Goldsmith, S Boxman, RL
Citation: E. Gidalevich et al., Shock discontinuity in high-current vacuum arcs, IEEE PLAS S, 29(5), 2001, pp. 700-703

Authors: Mesyats, GA Barengolts, SA
Citation: Ga. Mesyats et Sa. Barengolts, The cathode spot of a high-current vacuum arc as a multiecton phenomenon, IEEE PLAS S, 29(5), 2001, pp. 704-707

Authors: Londer, JI Ulyanov, KN
Citation: Ji. Londer et Kn. Ulyanov, Peculiarities of the slow ion flow movement in the near-anode region of a high-current vacuum arc, IEEE PLAS S, 29(5), 2001, pp. 708-712

Authors: Miyano, R Fujimura, Y Takikawa, H Sakakibara, T Nagao, M
Citation: R. Miyano et al., Cathode spot motion in vacuum arc of zinc cathode under oxygen gas flow, IEEE PLAS S, 29(5), 2001, pp. 713-717

Authors: Takeda, K Sugimoto, M
Citation: K. Takeda et M. Sugimoto, Surface modification by cathode spots of a vacuum arc, IEEE PLAS S, 29(5), 2001, pp. 718-721

Authors: Laux, M Pursch, H
Citation: M. Laux et H. Pursch, Sound emission from an arc cathode, IEEE PLAS S, 29(5), 2001, pp. 722-725

Authors: Duning, G Lindmayer, M
Citation: G. Duning et M. Lindmayer, Energy and density of ions in vacuum arcs between axial and radial magnetic field contacts, IEEE PLAS S, 29(5), 2001, pp. 726-733

Authors: Fu, J Jia, SL Lan, T
Citation: J. Fu et al., Observation and investigation of vacuum arc under various distributed axial magnetic fields, IEEE PLAS S, 29(5), 2001, pp. 734-737

Authors: Fink, H Heimbach, M Shang, WK
Citation: H. Fink et al., Vacuum interrupters with axial magnetic field contacts based on bipolar and quadrupolar design, IEEE PLAS S, 29(5), 2001, pp. 738-743
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