| 1 |
Modelling of the Plasma-Sheath Boundary Region in Wall-Stabilized Arc Plasmas: Unipolar Discharge Properties
Mancinelli B, Prevosto L, Chamorro JC, Minotti FO, Kelly H
Plasma Chemistry and Plasma Processing, 38(1), 147, 2018 |
| 2 |
Plasma sheath behavior and ionic wind effect in electric field modified flames
Xu KG
Combustion and Flame, 161(6), 1678, 2014 |
| 3 |
Fluid simulation of the sheath formation in a multi-component plasma containing charged dust nanoparticles
Marvi Z, Foroutan G
Thin Solid Films, 550, 381, 2014 |
| 4 |
One-dimensional solution to the stable, space-charge-limited emission of secondary electrons from plasma-wall interactions
Seon J, Lee E, Choe W, Lee HJ
Current Applied Physics, 12(3), 663, 2012 |
| 5 |
On the mechanism of energy transfer in the plasma-propellant interaction
Porwitzky AJ, Keidar M, Boyd ID
Propellants Explosives Pyrotechnics, 32(5), 385, 2007 |
| 6 |
Controlling the ion flux on substrates of different geometry by sheath-lens focusing effect
Stamate E, Sugai H
Thin Solid Films, 515(12), 4853, 2007 |
| 7 |
Ion flow and sheath physics studies in multiple ion species plasmas using diode laser based laser-induced fluorescence
Severn GD, Wang X, Ko E, Hershkowitz N, Turner MM, McWilliams R
Thin Solid Films, 506, 674, 2006 |
| 8 |
Positive bias effects on the growth of diamond at pressures below 100 mTorr
Teii K, Yoshida T
Thin Solid Films, 316(1-2), 24, 1998 |
| 9 |
Diagnostics and Control of Radiofrequency Glow-Discharge
Mutsukura N, Fukasawa Y, Machi Y, Kubota T
Journal of Vacuum Science & Technology A, 12(6), 3126, 1994 |
