Fundamentals of electric propulsion DM Goebel, I Katz, IG Mikellides John Wiley & Sons, 2023 | 2300 | 2023 |
Magnetic shielding of a laboratory Hall thruster. I. Theory and validation IG Mikellides, I Katz, RR Hofer, DM Goebel Journal of Applied Physics 115 (4), 2014 | 245 | 2014 |
Magnetic shielding of a laboratory Hall thruster. II. Experiments RR Hofer, DM Goebel, IG Mikellides, I Katz Journal of Applied Physics 115 (4), 2014 | 211 | 2014 |
Plasma surface interaction experimental facility (PISCES) for materials and edge physics studies DM Goebel, G Campbell, RW Conn Journal of Nuclear Materials 121, 277-282, 1984 | 206 | 1984 |
Magnetic shielding of the channel walls in a Hall plasma accelerator IG Mikellides, I Katz, RR Hofer, DM Goebel, K De Grys, A Mathers Physics of Plasmas 18 (3), 2011 | 199 | 2011 |
Sputtering yield measurements during low energy xenon plasma bombardment RP Doerner, DG Whyte, DM Goebel Journal of Applied Physics 93 (9), 5816-5823, 2003 | 197 | 2003 |
Perspectives, frontiers, and new horizons for plasma-based space electric propulsion I Levchenko, S Xu, S Mazouffre, D Lev, D Pedrini, D Goebel, L Garrigues, ... Physics of Plasmas 27 (2), 2020 | 192 | 2020 |
Hollow cathode theory and experiment. II. A two-dimensional theoretical model of the emitter region IG Mikellides, I Katz, DM Goebel, JE Polk Journal of Applied Physics 98 (11), 2005 | 183 | 2005 |
LaB6 hollow cathodes for ion and Hall thrusters DM Goebel, RM Watkins, KK Jameson Journal of Propulsion and Power 23 (3), 552-558, 2007 | 179 | 2007 |
A new plasma‐surface interactions research facility: PISCES‐B and first materials erosion experiments on bulk‐boronized graphite Y Hirooka, RW Conn, T Sketchley, WK Leung, G Chevalier, R Doerner, ... Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 8 (3 …, 1990 | 157 | 1990 |
Potential fluctuations and energetic ion production in hollow cathode discharges DM Goebel, KK Jameson, I Katz, IG Mikellides Physics of Plasmas 14 (10), 2007 | 154 | 2007 |
Magnetic shielding of walls from the unmagnetized ion beam in a Hall thruster IG Mikellides, I Katz, RR Hofer, DM Goebel Applied Physics Letters 102 (2), 2013 | 150 | 2013 |
Hollow cathode theory and experiment. I. Plasma characterization using fast miniature scanning probes DM Goebel, KK Jameson, RM Watkins, I Katz, IG Mikellides Journal of Applied Physics 98 (11), 2005 | 142 | 2005 |
High-current lanthanum hexaboride hollow cathode for high-power Hall thrusters DM Goebel, E Chu Journal of Propulsion and Power 30 (1), 35-40, 2014 | 140 | 2014 |
High-power microwave source based on an unmagnetized backward-wave oscillator DM Goebel, JM Butler, RW Schumacher, J Santoru, RL Eisenhart IEEE Transactions on Plasma Science 22 (5), 547-553, 1994 | 140 | 1994 |
Ion acoustic turbulence in a 100-A hollow cathode BA Jorns, IG Mikellides, DM Goebel Physical Review E 90 (6), 063106, 2014 | 131 | 2014 |
Large‐area lanthanum hexaboride electron emitter DM Goebel, Y Hirooka, TA Sketchley Review of Scientific Instruments 56 (9), 1717-1722, 1985 | 130 | 1985 |
Wear mechanisms in electron sources for ion propulsion, II: Discharge hollow cathode IG Mikellides, I Katz, DM Goebel, KK Jameson, JE Polk Journal of Propulsion and Power 24 (4), 866-879, 2008 | 122 | 2008 |
Lanthanum hexaboride hollow cathode for dense plasma production DM Goebel, JT Crow, AT Forrester Review of Scientific Instruments 49 (4), 469-472, 1978 | 119 | 1978 |
Recent progress in the development of plasma-filled traveling-wave tubes and backward-wave oscillators GS Nusinovich, Y Carmel, TM Antonsen, DM Goebel, J Santoru IEEE Transactions on Plasma Science 26 (3), 628-645, 1998 | 118 | 1998 |