Dr. Isak Beilis

School of Electrical Engineering
ביה"ס להנדסת חשמל סגל אקדמי בכיר
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Dr. Isak Beilis
Phone: 03-6407777
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Research Interests:

Physical phenomena in high current electrical discharges, at the electrode surface and in the near electrode plasma. This investigation includes electrode phenomena in vacuum arcs and high current vacuum interrupters, in MHD-generators, magnetically insolated diode, plasma thrusters and accelerators, filtered vacuum arc deposition systems and systems with hot refractory anode vacuum arcs. Laser-matter interaction phenomena. High current wire explosion phenomena. Arc producing nanostructures

Considerd Problems

  • Theory of electron emission in the vacuum arc cathode spot.
  • Theory of nonlinear and three-dimensional heat conductivity processes in a bulk body and in a thin film with a moving and concentrated heat source.
  • Theory of heat and plasma particle transfer in the partially ionized multicomponent plasma systems having different particle temperatures.
  • Hydrodynamics of ionized gas flow under high density of electrical current.
  • Kinetic phenomena in a strongly non-equilibrium region under local substance vaporization.
  • Theory of cathode and anode spots in vacuum arcs. Electrode erosion processes. Spot motion in magnetic field, nanosecond phenomena and plasma acceleration mechanism in arcs with current rise >1MA/s.
  • Theory of overheats phenomena in media being characterized by the nonlinear temperature dependence of electrical conductivity.
  • Plasma jet expansion in a magnetic field. Plasma acceleration in a low current vacuum arc cathode jet.
  • Plasma wall transition layers. Sheath and presheath theory. Sheath near a refractory cathode surface.
  • The kinetics of macroparticle charging in strongly ionized plasma. The non-stationary and non-equilibrium consideration.
  • Macroparticle transport and plasma transport in magnetized ducts. Theory and experiment.
  • Phenomena in a vacuum arc with refractory hot anode. Plasma and anode thermal processes in hot refractory anode vacuum arc (HRAVA). Theory and experiment.
  • Phenomena in a new type of the vacuum arc with enclosed cavity electrodes like black body configuration. Plasma processes in vacuum arc with black body assembly (VABBA) to producing MP free metallic plasmas. Experiment and application as plasma source.
  • Vacuum arc film deposition.
  • Plasma phenomena in electrothermal pulsed plasma thruster (PPT).
  • Plasma flow and presheath structures in Hall thrusters
  • Laser matter interaction. Ablation phenomena, plasma generation and plasma target interaction.
  • Discharge phenomena associated with wire explosion at high rate of current rise. Instability effects by wire explosion.
  • Phenomena in arc plasmas producing nanostructures.
  • Phenomena in inverse heat flux of a metamaterials and cold plasma medicine.

 

Articles in Journals

  1. I.I. Beilis, N.M. Zykova, Dynamics of the anode spot. ZTF (Sov. Phys. Tech. Phys.), Vol. 38, No. 2, 1968 (pp. 323- 325).
  2. I.I. Beilis, V.I. Rakhovsky, L.G. Tkachov, B.Ya. Smelyansky, Investigation of energy losses in a high-powered electron beam. ZTF (Sov. Phys. Tech. Phys.), Vol. 39, No. 9, 1969 (pp. 1650-1659).
  3. I.I. Beilis, V.I. Rakhovsky, Theory of the cathode mechanism of an arc discharge. High Temp. 1969, Vol. 7 (pp. 568-573); TVT, Vol. 7, No. 4, 1969 (pp. 620-625).
  4. I.I. Beilis, G.A. Lyubimov, V.I. Rakhovsky, Electric field at the electrode surface near the cathode spot of an arc discharge. Sov. Phys. Doklady, Vol.14, 1969 (pp. 897-900); DAK, Vol.188, No.3, 1969 (pp. 552-555).
  5. I.I. Beilis, G.A. Lyubimov, V.I. Rakhovsky, Dynamics of the variation of the fraction of electron current in the region of an arc discharge near the cathode, Sov. Phys. Doklady, Vol.15, 1970 (pp. 254-256); DAK, Vol.191, No.2, 1970 (pp. 307-310).
  6. I.I. Beilis, V.I. Rakhovsky, Effects of nonlinear heat losses at electrode heated by a moving arc discharge, JEF, Vol.19, No.4, 1970 (pp. 678-681).
  7. I.I. Beilis, Analytic approximation for the Nordheim function, High Temp., 1971, Vol.9 (pp. 157-158); TVT, Vol.9, No.1, 1971 (pp. 184-186).
  8. I.I. Beilis, G.A. Lyubimov, V.I. Rakhovsky, Diffusion model of the near cathode region of a high-current arc discharge, Sov. Phys. Doklady, Vol.17, 1972 (pp. 225-228); DAK, Vol. 203, No.1, 1972 (pp. 71-74).
  9. I.I. Beilis, Analysis of the cathode spots in a vacuum arc. Sov. Phys. Tech. Phys., Vol. 19, 1974 (pp. 251-256); ZTF, 1974, Vol. 44 (pp. 400-410).
  10. I.I. Beilis, Emission processes at the cathode of electric arc. Sov. Phys. Tech. Phys., Vol.19, 1974 (pp.257-260); ZTF, Vol.44, No.2, 1974 (pp. 411-418).
  11. I.I. Beilis, N.M. Zykova, V.V. Kubyschkin, Investigation of cathode spot at the electrodes of an impulsive lamp. TVT (High Temper.), Vol. 13, No.4, 1975 (pp. 701-705).
  12. I.I. Beilis, G.A. Lyubimov, Parameters of cathode region of vacuum arc.  High Temp., Vol. 13, 1975 (pp. 1057-1064); TVT, Vol. 13, No.6, 1975 (1137-1145).
  13. I.I. Beilis, G.A. Lyubimov, Theory of the arc spot on a film cathode. Sov. Phys. Tech. Phys., Vol.21, 1976 (pp. 698-703); ZTF, Vol.46, No.6, 1976 (pp. 1231-1239).
  14. I.I. Beilis, G.A. Lyubimov, "Signature" determination of current density at the cathode spot in an arc. Sov. Phys. Tech. Phys., Vol. 21, 1976 (pp. 1280-1282); ZTF, Vol. 46, 1976 (pp. 2181-2184).
  15. I.I. Beilis, V.I. Zalkind, A.S. Tikhotsky, Cathode spot on metallic electrodes in MHDG channels, TVT (High Temp.), Vol. 15, No.1, 1977 (pp. 158-163).
  16. I.I. Beilis, Cathode spots on metallic electrode of a vacuum arc discharge. High Temp., Vol. 15, 1977 (pp. 818-824); TVT, Vol.15, No.5, 1977 (pp. 965-971).
  17. I.I. Beilis, The near-cathode region of contracted discharge at the metal electrode of MHD generator, TVT (High Temp.), Vol. 15, No.6, 1977 (pp. 1269-1275).
  18. I.I. Beilis, On the mechanism of the erosion of metallic electrodes in a channel of MHD generator, TVT (High Temp.), Vol.16, No.4, 1978 (pp. 848-853).
  19. I.I. Beilis, The Gaussian-distribution moving heat source at the semi-infinite plate, FKOM, No.4, 1979 (pp. 32-36).
  20. I.I. Beilis, On the flow of metallic vapor from the cathode region of electrical arc. ISOAN STN, No.3, 1982 (pp. 69-71).
  21. I.I. Beilis, On the role of metal electrode in the near-electrode processes of the arc discharge in MHD-generators conditions, ISOAN STN, No.3, 1982 (pp. 78-85).
  22. I.I. Beilis, On the theory of the erosion processes in the cathode region of an arc discharge, DAK, Vol.262, No.6, 1982 (pp. 1356-1361); Sov. Phys. Doklady, Vol. 27, 1982 (pp. 150).
  23. I.I. Beilis, Diffusion processes in the near-cathode region of an arc discharge in MHD generator, TVT (High Temp.), Vol.20, No.3, 1982 (pp. 604).
  24. I.I. Beilis, On some mechanisms of destruction of copper electrode in MHD generator, TVT, Vol.23, No.3, 1985 (pp. 577-585).
  25. I.I. Beilis, V.I. Rakhovsky, M.P. Zektser, Current density in the cathode spot of a vacuum arc. Gradients of electron temperature and density, DAK, Vol. 282, No.4, 1985 (pp. 854-857); Sov. Phys. Doklady, Vol. 30, 1985 (pp. 476-478).
  26. I.I. Beilis, The anode region of vapour electrode arc discharge, ISOAN STN, Vol.16, No.3, 1985 (pp. 77-82).
  27. I.I. Beilis, Parameters of kinetic layer of arc discharge cathode region, IEEE Trans. Plasma Sci.,  Vol.PS-13, No.5, 1985 (pp. 288-290).
  28. I.I. Beilis, Cathode arc plasma flow in a Knudsen layer, TVT, Vol.24, No.3, 1986 (pp.437-44); High Temp., Vol. 24, 1986 (pp. 319-325).
  29. I.I. Beilis, V.V. Kirillov, The heat conditioning of ceramics element electrodes of MHD generator, TVT, Vol. 24, No. 4, 1986 (pp. 796-801).
  30. I.I. Beilis, The heat conditioning of metal framework combine electrode MHD generator for arc discharge, TVT, Vol. 24, No. 6, 1986 (pp. 1173-1181).
  31. I.I. Beilis, The cathode potential drop of an arc in the vapor of the electrode discharge. DAK, Vol. 298, No. 5, 1988 (pp. 1108-1111); Sov. Phys. Doklady, Vol. 33, 1988 (pp. 125-127).
  32. I.I. Beilis, V.V. Kirillov, Investigation of the heat end electrical characteristic of two-layer ceramics electrodes, TVT, Vol. 26, No. 2, 1988 (pp. 379-386).
  33. I.I. Beilis, Theoretical analysis of the dynamic cathode region in electrical arc. ISOANSTN, Vol.7, No.2, 1988 (pp. 58-64).
  34. I.I. Beilis, Y.Kukharenko, V.I. Rakhovsky, Kinetic calculation of the parameters of near-electrode layer in vacuum arc. IT, No.5, 1988 (pp. 65-67);  Meas. Tech., Vol. 31, 1988 (pp. 517-520).
  35. I.I. Beilis, Model of a steady-state arc spot on a refractory cathode in vacuum. PZTF, 1988, Vol.14, No.12 (pp. 1124-1127); Sov. Tech. Phys. Lett., Vol. 14, 1988 (pp. 494-495).
  36. I.I. Beilis, G.A. Lyubimov, M.P. Zektser, Analysis of the formulation and solution of the problem of the cathode jets of a vacuum arc. ZTF, Vol.58, No.10, 1988 (pp. 1861-1870); Sov. Phys. Tech. Phys., Vol.33, 1988 (pp. 1132-1137).
  37. I.I. Beilis, On the mechanism function of the vacuum arc spot operation on refractory cathodes. TVT, Vol.26, No.6, 1988 (pp. 1224-1226).
  38. I.I. Beilis, V.E. Ostashow, Model for a high-current discharge moving between parallel electrodes, TVT, Vol.27, No.6, 1989 (pp. 1041-1046); High Temperatures. Vol. 27, No. 6, 1989 (pp. 817-821).
  39. I.I. Beilis, The nature of an arc discharges with a mercury cathode in vacuum. PZTF, Vol. 16, No. 10, 1990 (pp. 71-74); Sov. Tech. Phys. Lett., Vol. 16, N5, 1990 (pp. 390-391).
  40. I.I. Beilis, V.I. Zalkind, V.V. Kirillov, Two dimensional analysis of Joule dissipation in combined MHD electrodes, TVT, Vol. 28, No. 6, 1990 (pp. 1220-1225); High Temp., Vol. 28, No. 6 (pp.938-943).
  41. I.I. Beilis, Thermal and electrical characteristic of electrode-plasma system in an channel MHD generator, TVT, Vol. 29, No.2, 1991 (pp. 356-357); High Temp., Vol. 29, No. 2, 1991 (pp. 281-284)
  42. I.I. Beilis, Model of a vacuum arc spot on a mercury arc cathode, TVT, Vol.29, No.1, 1991 (pp. 30-34); High Temp., Vol. 29, No. 1, 1991 (pp. 30-34.)
  43. I.I. Beilis, M.P. Zektser, Calculation of the parameters of the cathode stream an arc discharge, High Temp., Vol.29, No.4, 1991 (pp.501-504).
  44. I.I. Beilis, A.Yu. Sevalnicov, The column of electrical arc at atmospheric pressure, TVT, Vol.29, No.5, 1991 (pp. 856-863).
  45. N.V. Volkov, I.I. Beilis, Extended negative glow plasma in short glow discharge, High Temp., Vol.30, N4, 1992 (pp. 542-549).
  46.  N. Parkansky, I. Beilis, R. Boxman, S. Goldsmith, "Anode erosion during pulsed arcing", IEEE Trans. Plasma Sci., Vol.21, N5, 1993 (pp.458-462).
  47. R.L. Boxman, S. Goldsmith, A. Ben-Shalom, L.Kaplan, D. Arbilly, E. Gidalevich, V.N Zhitomirsky, A.Ishaya, M. Keidar, I. Beilis, IEEE Trans. Plasma Sci., Vol.23, N6, 1995 (pp. 939-944).
  48. M. Keidar, I. Beilis, R.L. Boxman and Goldsmith, "Non-stationary macroparticle charging in an arc plasma jet", IEEE Trans. Plasma Sci., Vol.23, N6, 1995 (pp. 902-908).
  49. H. Rosenthall, I. Beilis, S. Goldsmith, R.L.Boxman, "Heat fluxes during the development of hot anode vacuum arc", J.Phys. D: Appl. Phys, Vol.28, N1, 1995 (pp. 353-363).
  50. M. Keidar, I. Beilis, R.L. Boxman and Goldsmith, "Transport of macroparticles in magnetized plasma ducts", IEEE Trans. Plasma Sci., Vol.24, N1, 1996 (pp. 226-234).
  51. H. Rosenthall, I. Beilis, S. Goldsmith, R.L.Boxman, "Spectroscopic investigation of the development of hot anode vacuum arc",  J.Phys. D: Appl. Phys, Vol.29, N6, 1996 (pp. 1245-1259).
  52. M. Keidar, I. Beilis, R.L. Boxman and Goldsmith, "2-D expansion of the low density interelectrode vacuum arc plasma in an axial magnetic field", J.Phys. D: Appl. Phys, Vol.29, N7, 1996 (pp. 1973-1983).
  53. I. I. Beilis, "Current continuity and instability of the mercury vacuum arc cathode spot", IEEE Trans. Plasma Sci.,  Vol.24, N4, 1996 (pp. 1259-1271).
  54. M. Keidar, I. Beilis, R.L. Boxman and Goldsmith, "Macroparticle interaction with a substrate in cathodic vacuum arc deposition",  Surface and Coatings Technology, Vol., 86/87, 1996 (pp.415-420).
  55. R.L. Boxman, V.N Zhitomirsky, E. Gidalevich, I. Beilis, M. Keidar and Goldsmith, "Resent progress in filtered vacuum arc deposition",  Surface and Coatings Technology, Vol. 86/87, 1996 (pp.243-253).
  56.  I. Beilis, B.E. Djakov, B. Juttner and Pursch "Structure and dynamics of high-current arc cathode spots in vacuum", J.Phys. D: Appl. Phys, Vol.30, N1, 1997 (pp. 119-130).
  57.  I. I. Beilis, M. Keidar, R. L. Boxman, and S. Goldsmith. Non-equilibrium macroparticle charging in low-density plasmas. IEEE Trans. Plasma Sci., 25, No2, 1997  (pp.346-352).
  58.  M. Keidar, I. I. Beilis, R. L. Boxman, S. Goldsmith. Voltage of the vacuum arc with a ring anode in an axial magnetic field. IEEE Trans. Plasma Sci., 25, No4, 1997 (pp. 580-585).
  59.  I. I. Beilis, M. Keidar and S. Goldsmith. Plasma-wall transition: The influence of the electron to ion current ratio on the magnetic presheath structure, Phys. Plasmas, Vol.4, No,10, 1997 (pp.3461-3468).
  60. M. Keidar, I. I. Beilis, R. Aharonov, D. Arbilly, R. L. Boxman and S. Goldsmith. Macroparticle distribution in a quater-torus plasma duct of a filtered vacuum arc deposition system, J. Phys. D: Appl. Phys, Vol.30, N 21, 1997 (pp. 2972-2978).
  61. I. I. Beilis, M. Keidar, R. L. Boxman, and S. Goldsmith. Theoretical study of plasma expansion in a magnetic field in a disk anode vacuum arc, J. Appl. Phys., Vol.83, No.2, 1998 (pp.709-717).
  62. I. I. Beilis, M. Keidar, “Sheath and presheath structure in the plasma wall-transition layer in an oblique magnetic field”, Phys. Plasmas, Vol.5, No,5, 1998 (pp.1545-1553).
  63. N. Parkansky, I. Beilis, L. Rapoport, R L.. Boxman, S. Goldsmith and Yu. Rosenberg, "Electrode erosion and coating properties in pulsed air arc deposition of WC-based alloys", Surface and Coatings Technology, Vol. 105, N1/2, 1998 (pp.130-134).
  64. I. I. Beilis, A. Fruchtman and Y. Maron, “A mechanism for ion acceleration near the anode of a magnetically insulated ion diode”, IEEE Trans. Plasma Sci., Vol.26, N3, 1998 (pp.995-999).
  65. M. Keidar and I.I. Beilis “Plasma-wall sheath in a positive biased duct of the vacuum arc magnetic macroparticle filter”, Appl. Phys Lett. 73, 1998,  (p.306-308)
  66.  I. I. Beilis, M. Keidar, R.L. Boxman, S. Goldsmith, Effect of  macroparticle separation in positively biased ducts in the filtered vacuum arc deposition systems, Surface and Coatings Technology, 108-109, 1998, p.148-153
  67. N. Parkansky, I.I. Beilis, R L.. Boxman, S. Goldsmith and Yu.  Rosenberg, "Anode mass loss during pulsed air arc deposition", Surface and Coatings Technology, 108-109, 1998, p. 253-256
  68. M. Keidar, I.I. Beilis, I. G. Brown, “Multiply charged ion transport in free boundary vacuum arc plasma jet”, J. Appl. Phys. 84, 1998,  (p.1656-1660)
  69. I. I. Beilis, R. L. Boxman, and S. Goldsmith. “Steady-state model of a Refractory hot anode Vacuum Arc”, J. Phys. D: Appl. Phys., Vol. 32, No 1, 1999 (pp.153-158).
  70. I. I. Beilis, M. Keidar, R.L. Boxman and S. Goldsmith, ”Macroparticle separation and plasma collimation in positively biased ducts in filtered vacuum arc deposition systems”, J. Appl. Phys., Vol. 85, 3, 1999 (p.1358-1365).
  71. I. I. Beilis, M. Keidar, R.L. Boxman, S. Goldsmith, J.  Heberlein and E. Pfender, “Radial plasma flow in a hot anode vacuum arc”, J. Appl. Phys., Vol. 86, 1, 1999 (p.114 -119).
  72. M. Keidar, I. I. Beilis, “Hydrodynamic model of vacuum arc plasma flow in a positively biased toroidal macroparticle filter ” Plasma Sources Science and Technology, vol 8, N3, 1999, (pp. 376-383).
  73. M. Keidar, I. I. Beilis, A. Anders, I. G. Brown, “Free-boundary vacuum arc plasma jet expansion in a curved magnetic field”, IEEE Trans. Plasma Sci., Vol.27, N2, 1999 (pp.613-619).
  74. M. Keidar, I. I. Beilis, “Macroparticle Reflection from a Biased Substrate in a Vacuum Arc Deposition” IEEE Trans. Plasma Sci., Vol.27, N3, 1999, (pp.810-81)
  75. I. I. Beilis, “Application of Vacuum Arc Cathode Spot Model to Graphite Cathode”, IEEE Trans. Plasma Sci., Vol.27, N4, 1999, (pp.821-826)
  76. I. I. Beilis, M. Keidar, R. L. Boxman, and S. Goldsmith, “Plasma Expansion and Current Flow in a Vacuum Arc with a Small Anode”, IEEE Trans. Plasma Sci., Vol.27, N4, 1999, (pp.872-876)
  77. I. I. Beilis, R. L. Boxman, S. Goldsmith and V.L. Paperny. “Ion acceleration in radially expanding plasma of the hot refractory anode arc”, Appl. Phys. Lett. 75, No18, 1999,  (p.2734-2736)
  78. M. Keidar, R. Aharonov and I. I. Beilis, “Influence of an electrical field on the macroparticle size distribution in a vacuum arc”, J. Vac. Sci. Technol., A17 (5) Sep/Oct 1999 pp. 3067-3073.
  79. M. Keidar, I. G. Brown and I. I. Beilis, “Axial ion charge state distribution in the arc plasma jet”, Review of Scientific Instrument, Vol. 71, No 2, 2000, pp.698-700.
  80.  M. Keidar, I. D. Boyd and I. I. Beilis,  “Electrical Discharge in the Teflon Cavity of a Coaxial Pulsed Plasma Thruster”, IEEE Trans. Plasma Sci., Vol.28, N2, 2000, (pp.376-385)
  81. I. I. Beilis, “Anode Spot Vacuum Arc Model: Graphite Anode”, IEEE Transaction. on Components and Packaging Technologies, Vol.23, No2, 2000, (pp.334-340).
  82.  I. I. Beilis, M. Keidar, R. L. Boxman, and S. Goldsmith, “Interelectrode plasma parameters and plasma deposition in a hot refractory anode vacuum arc”, Phys. Plasmas, Vol.7, No7, 2000, (pp.3068-3076).
  83.  I. I. Beilis, R. L. Boxman, S. Goldsmith and V.L. Paperny. “Radially expanding plasma parameters in a hot refractory anode arc”, J. Appl. Phys., Vol. 88, N11, 6224-6231, 2000.
  84. I. I. Beilis, R. L. Boxman and S. Goldsmith, “The hot refractory anode vacuum arc: a new plasma source for metallic film deposition ”, Surface and Coatings Technology, 133-134, issues 1-3, 2000, p. 91-95.
  85. M. Keidar, I. D. Boyd and I. I. Beilis, “Model of Particulate interaction with plasma in a teflon pulsed plasma thruster", Journal of Propulsion and Power, Vol. 17, No. 1, 2001, pp. 125-131
  86. M. Keidar, Jing Fan, I. D. Boyd and I. I. Beilis, “Vaporization of heated materials into discharge plasmas”, J. Appl. Phys., Vol. 89, N6, 2001, 3095-3098.
  87. M. Keidar, I. D. Boyd and I. I. Beilis, “On the model of Teflon ablation in an ablation-controlled discharge” J. Phys. D: Appl. Phys., Vol. 34, No , 2001 (pp.1675-1677).
  88. I. I. Beilis, “State of the theory of vacuum arcs”, IEEE Trans. Plasma Sci., Vol.29, N5, Part 1, 2001, (pp.657-670)
  89. I. I. Beilis, R. L. Boxman and S. Goldsmith, “A hot refractory anode vacuum arc: nonstationary plasma model”, IEEE Trans. Plasma Sci., Vol.29, N5, Part 1, 2001, (pp.690-694)
  90.  I. I. Beilis,  “A mechanism for nanosecond cathode spot operation in vacuum arcs”, IEEE Trans. Plasma Sci., Vol.29, N5, Part 2, 2001, (pp.844-847)
  91. M. Keidar, I.D. Boyd and I.I. Beilis, “Plasma flow and plasma-wall transition in Hall thruster channel”, Phys. Plasmas, Vol.8, No12, 2001, (pp.5315-5322).
  92. I. I. Beilis, R. L. Boxman, and S. Goldsmith, “Interelectrode plasma evolution in a hot refractory anode vacuum arc: Theory and comparison with experiment”, Phys. Plasmas, Vol.9, No7, 2002, (pp.3159-3170).
  93. .I. I. Beilis. “Mechanism for cathode spot grouping in vacuum arcs”, Appl. Phys. Lett. 83, No21, 2002, (p.3936-3938)
  94. .I. I. Beilis. “Vacuum Arc Cathode Spot Grouping and Motion in Magnetic Fields”, IEEE Trans. Plasma Sci., Vol.30, N6, 2002, (p.2124-2132)
  95. I.G. Levchenko, A.U. Voloshko, M. Keidar, and I.I. Beilis, “Unipolar arc behavior in high frequency fields”, IEEE Trans. Plasma Sci., Vol.31, N1, 2003, (p.137-141)
  96. M. Keidar, I.D. Boyd and I.I. Beilis, " A model of an Electrothermal Pulsed Plasma Thruster", Journal of Propulsion and Power, Vol. 19, No. 3, 2003, (pp. 424-430)
  97. ,I. I. Beilis, “The Vacuum Arc Cathode Spot and Plasma Jet: Physical Model and Mathematical description”, Contributions to Plasma Physics, Vol. 43. N.3-4, 2003, (pp.224-236)
  98. I.I. Beilis, A. Nemirovsky, S. Goldsmith, R.L. Boxman, “Two-Dimensional Thermal Model of a Refractory Anode in a Vacuum Arc”, IEEE Trans. Plasma Sci., Vol.31, N5, Part 1, 2003, (pp.958-962)
  99. I.I. Beilis, A Shashurin, D Arbilly, S. Goldsmith and R. L. Boxman, “Copper film deposition by a hot refractory anode vacuum arc”, Surface and Coatings Technology, 177-178, issues 1-3, 2004, (p. 233-237)
  100. I.I. Beilis. “A mechanism for small electron current fraction in a vacuum arc cathode spot on a refractory cathode”, Appl. Phys. Lett. 84, N8, 2004, (p.1269-1271).
  101. M. Keidar, I.D. Boyd and I.I. Beilis, “Modeling of the High-Power Thruster with Anode Layer”, Phys. Plasmas, Vol.11, N4, 2004, (pp.1715-1722).
  102. I.G. Levchenko, M. Romanov, M. Keidar, and I.I. Beilis, “Stable plasma configurations in a cylindrical magnetron discharge”, Appl. Phys. Lett. 85, N12, 2004, (p.2202-2204).
  103. V.I. Oreshkin, R. B. Baksht, N.A. Ratakhin, A.V. Shishlov. K.V. Khishchenko, P.R. Levashov, I. I. Beilis, “Wire explosion in vacuum. Simulation of a striation appearance”, Phys. Plasmas, Vol.11, No10, 2004, (pp.4771-4776).
  104. I.I. Beilis. “Nature of High-Energy Ions in the Cathode Plasma Jet of a Vacuum Arc with High Rate of Current Rise”, Appl. Phys. Lett. 85, No14, 2004, (p.2739-2740).
  105. I.I. Beilis, A Shashurin, A. Nemirovsky, S. Goldsmith and R.L. Boxman, “Anode temperature distribution and coatings characteristics in a hot refractory anode vacuum arc with an asymmetric anode”, Surface and Coatings Technology, 188-189, 2004, (p.228-233).
  106. M. Keidar, I. D. Boyd and I. I. Beilis, “Ionization and ablation phenomena in an ablative plasma accelerator” J. Appl. Phys., Vol. 96, No10, 2004 (pp.5420-5428).
  107. I.I. Beilis, A Shashurin, A. Nemirovsky, R.L. Boxman, and S. Goldsmith “Imaging of the Anode Plasma Plume Development in a Hot Refractory Anode Vacuum Arc”, IEEE Trans. Plasma Sci., Vol.33, N2, 2005, (p.408-409).
  108.  M. Laux, W. Schneider, B. Juttner, S, Linding, M. Mayer, M. Balden, I.I. Beilis, B. Djakov, “Modification of tungsten layers by arcing”, J. of Nuclear Materials, vol.337-339, p.1019-1023, 2005.
  109.  M. Keidar, J. Schein, K. Wilson, A. Gerhan, M. Au, B. Tang, L. Idzkowski, M. Krishnan and I. I. Beilis, “Magnetically enhanced vacuum arc thruster”, Plasma Sources Science and Technology, vol 14, N4, 2005, (pp.661-669).
  110. M. Laux, W. Schneider, B. Juttner, S, Linding, M. Mayer, M. Balden, I.I. Beilis B. Djakov, ” Modification of Tungsten Layers by Arcing”, PSI16, Germany, P3-28, 2004.
  111. M. Laux, W. Schneider, B. Jüttner, M. Balden, S. Lindig, I.I. Beilis and B.E. Djakov, “Ignition and Burning of Vacuum Arcs on Tungsten Layers ” IEEE Trans. Plasma Sci., Vol.33, N5, Part 1, 2005, (pp.1470-1475)
  112. M. Keidar and I.I. Beilis, “Transition From Plasma to Space-Charge Sheath Near the Electrode in Electrical Discharges” IEEE Trans. Plasma Sci., Vol.33, N5, Part 1, 2005, (pp.1481-1486)
  113.  I.I. Beilis, “Ion Acceleration in Vacuum Arc Cathode Plasma Jets With Large Rates of Current Rise”, IEEE Trans. Plasma Sci., Vol.33, N5, Part 1, 2005, (pp.1537-1541)
  114.  R.L. Boxman I.I. Beilis, E. Gidalevich, and V.N. Zhitomirsky, “Magnetic Control in Vacuum Arc Deposition: A Review ” IEEE Trans. Plasma Sci., Vol.33, N5, Part 1I, 2005, (pp.1618-1624)
  115.  I.I. Beilis, A Shashurin, A. Nemirovsky, S. Goldsmith, and R.L. Boxman, “Measurements of the Anode Temperature in a Vacuum Arc With an Asymmetric Hot Refractory Mo Anode”, IEEE Trans. Plasma Sci., Vol.33, N5, Part 1I, 2005, (pp.1641-1647)
  116.  I.I. Beilis, A Shashurin, R.L. Boxman, and S. Goldsmith, “Influence of background gas pressure on copper film deposition and ion current in a hot refractory anode vacuum arc” Surface and Coatings Technology, 200, 2005, (p.1395-1400).
  117.  V.I. Oreshkin, R.B. Baksht, N.A. Ratakhin, A.Yu. Labetsky, A.G. Rousskikh, A.V. Shishlov, P.R. Levashov, K.V. Khishchenko, I.V. Glazyrin, I. Beilis, "The Thermal Instabilities on Electrical Explosion of Metal Wires", AIP Conference Proceedings -- January 5, Vol 808, Issue 1, pp. 103-106, 2006
  118.  I.I. Beilis, A Shashurin, R.L. Boxman, and S. Goldsmith, “Total ion current fraction in a hot refractory anode vacuum arc”, Appl. Phys. Lett. 88, 071501, 2006.
  119.  M. Keidar and I.I. Beilis, “Electron Transport Phenomena in Plasma Devices With EXB Drift” IEEE Trans. Plasma Sci., Vol.34, N3, Part 1I, 2006, (pp. 804- 814)
  120.  I.I. Beilis, “Kinetics of Plasma Particles and Electron Transport in the Current-Carrying Plasma Adjacent to an Evaporating and Electron Emitting Wall” IEEE Trans. Plasma Sci., Vol.34, N3, Part 1I, 2006, (pp. 855- 866)
  121.  I.I. Beilis, “Laser Produced Plasma Interaction with a Matter”, Czech. J. Phys., Vol.56, Suppl. B, 2006, (pp. 436-442)
  122.  I.I. Beilis, “Mechanism of laser plasma production and of plasma interaction with a target”, Appl. Phys. Lett. 89, 091503, 2006.
  123. I.I. Beilis, “Mechanism of laser plasma production and of plasma interaction with a target”, Virtual Journal of Ultrafast Science, September 2006 issue, selected from APL, 89, 091503, 2006.
  124. M. Keidar and I.I. Beilis, “Nonequilibrium thermal boundary layer in a capillary discharge with an ablative wall”, Phys. Plasmas, Vol.13, No11, 2006, pp.14503-1-3
  125.  A Shashurin, I.I. Beilis, Y. Sivan, S. Goldsmith and R.L. Boxman, “Copper film deposition rates by a hot refractory anode vacuum arc and magnetically filtered vacuum arc” Surface and Coatings Technology, 201, N7, 2006, (p.4145-4151).
  126.  I.I. Beilis, “Laser plasma generation and plasma interaction with ablative target”, Laser and Particle Beams, Volume 25, Issue 01, 2007, pp 53-63.
  127.  I.I. Beilis, Transient Cathode Spot Operation at a Microprotrusion in a Vacuum Arc IEEE Trans. Plasma Sci., Vol.35, N4, Part 2, 2007, (pp. 966- 972).
  128.  I.I. Beilis, A. Shashurin, R. L Boxman, Measurement of Ion Flux as a Function of Background Gas Pressure in a Hot Refractory Anode Vacuum Arc IEEE Trans. Plasma Sci., Vol.35, N4, Part 2, 2007, (pp. 973- 979).
  129.  I.I. Beilis, A. Snaiderman, A Shashurin, R.L. Boxman, S. Goldsmith, “Copper film deposition and anode temperature measurements in a vacuum arc with tungsten anode, ” Surface and Coatings Technology, 202, Issues 4-7, 2007, (p.925-930).
  130.  N. Parkansky, L. Glikman, I.I. Beilis, B. Alterkop, R.L.Boxman, D. Gindin,”W-C Electrode Erosion in a Pulsed Arc Submerged in Liquid”, Plasma Chemistry and Plasma Processing, v27, N6, p.789-797, 2007.
  131.  I. I. Beilis, R. B. Baksht, V. I. Oreshkin, A. G. Russkikh, S. A. Chaikovskii, A. Yu. Labetskii, N. A. Ratakhin, and A. V. Shishlov, "Discharge phenomena associated with a preheated wire explosion in vacuum: Theory and comparison with experiment”, Phys. Plasmas, Vol.15, No1, 2008, (pp. 013501-1--013501-13)
  132.  A Shashurin, I.I. Beilis, and R.L. Boxman, “Angular distribution of ion current in a vacuum arc with a refractory anode” Plasma Sources Science and Technology, Technol. 17 (2008) 015016 (11pp).
  133.  N. Parkansky, G. Frenkel, B. Alterkop, I. Beilis, R.L. Boxman, Z. Barkay, Yu. Rosenberg, "Ni–C powder synthesis by a submerged pulsed arc in breakdown mode", J. Alloys Compd. (2007 online), doi:10.1016/j.jallcom.2007.10.021; published V 464, Issues 1-2, 22 Sept 2008, p.p. 483-487
  134.  I.I. Beilis, “Microplasma generation in a microscale short vacuum arc”, Appl. Phys. Lett. 92, 121501, 2008.
  135.  I.I. Beilis, D. Grach, A Shashurin, R. L Boxman, Filling Trenches on a SiO2 Substrate with Cu Using a Hot Refractory Anode Vacuum Arc" Microelectronic Engineering, 85 1713-1716, 2008
  136.  N. Parkansky, L. Glikman, I.I. Beilis, B. Alterkop, R.L.Boxman, Yu. Rosenberg, Z. Barkay,” W-C Synthesis in a Pulsed Arc Submerged in Liquid”, Plasma Chemistry and Plasma Processing, v28, N6, p.265-375, 2008.
  137.  A.G. Russkikh, D. Pil’tikhina, R. B. Baksht, I. I. Beilis, S. A. Chaikovskii, "Effect of electrode polarity on wire explosion in vacuum" J. Appl. Phys., Vol. 104, N1, 2008 (pp. 013306-1-013306-6).
  138.  I.I. Beilis, "Metallic plasma production by laser ablation" Radiation Effects & Defects in Solids, Apr 2008, Vol. 163 Issue 4-6, p317-324.
  139.  I.I. Beilis, A Shashurin, R.L Boxman, “Anode Plasma Plume Development in a Vacuum Arc with a “Black-Body” Anode-Cathode Assembly", IEEE Trans. Plasma Sci., Vol.36, N4, Part 1, 2008, (pp.1030- 1031).
  140.  A Shashurin, M. Keidar, I.I. Beilis, "Voltage-current characteristics of an anodic arc producing carbon nanotubes", J. Appl. Phys., Vol. 104, N6, 2008 (pp. 063311-1- 063311-5).
  141.  A.G. Russkikh, V.I. Oreshkin, S.A. Chaikovskii, N.A. Labetskaya, A.V. Shishlov, I. I. Beilis, R. B. Baksht, "Study of the strata formation during the explosion of a wire in vacuum", Phys. Plasmas, Vol.15, No10, 2008, (pp. 102706-7).
  142.  I.I. Beilis, A. Snaiderman, R.L. Boxman, “Chromium and titanium film deposition using a hot refractory anode vacuum arc plasma source”, Surface and Coatings Technology, 203, Issues 5-7, 2008, (p.501-504).
  143.  I.I. Beilis, “Modeling of a Microscale Short Vacuum Arc for a Space Propulsion Thruster", IEEE Trans. Plasma Sci., Vol.36, N5, Part 1, 2008, (pp.2163-2166).
  144.  I.I. Beilis, “Wall interactions with plasma generated by vacuum arcs and targets irradiated by intense laser beams” Plasma Sources Science and Technology, Technol. 18 (2009) 014015 (16pp).
  145.  I.I. Beilis, A Shashurin, R.B Baksht, V. Oreshkin, "Density and temperature distributions in the plasma expanding from an exploded wire in vacuum", J. Appl. Phys., Vol. 105, N3, 2009 (pp. 033301-1- 033301-5).
  146.  M. Keidar, I.I. Beilis, "Sheath and boundary conditions for plasma simulations of a Hall thruster discharge with magnetic lenses", Appl. Phys. Lett. 94, 191501 2009.
  147.  H. Marks, I.I. Beilis, R.L Boxman, “Measurement of the Vacuum Arc Plasma Force”, IEEE Trans. Plasma Sci., Vol.37, N7, Part 2, 2009, (pp.1332- 1337).
  148.  A Shashurin, I.I. Beilis, and R.L. Boxman, “Experimental study of plasma parameters in a vacuum arc with a hot refractory anode", Plasma Sources Science and Technology, Technol. 18 (2009) 045004 (13pp).
  149.  I.I. Beilis and R.L. Boxman, “Metallic film deposition using a vacuum arc plasma source with a refractory anode", Surface and Coatings Technology, 204, N6-7, 2009, (p.865-871).
  150.  M. Keidar, I.I. Beilis, "Modeling of atmospheric-pressure anodic carbon arc producing carbon nanotubes", J. Appl. Phys., Vol. 106, N10, 2009 (pp. 103304-1-103304-6)
  151.  M. Keidar, I.I. Beilis, "Modeling of atmospheric-pressure anodic carbon arc producing carbon nanotubes", Virtual Journal of Nanoscale Science & Technology -- December 7, 2009 Volume 20, Issue 2: selected from JAP, 106, N10, 2009, p.103304.
  152.  A Shashurin, I.I. Beilis, and R.L. Boxman, “Heat flux to an asymmetric anode in a hot refractory anode vacuum
    arc", Plasma Sources Science and Technology, Technol. 19 (2010) 015002 (9pp).
  153.  M. Keidar, A Shashurin, O. Volotskova, E. Raitses, I.I. Beilis, “Mechanism of carbon nanostructure synthesis in arc plasma”, Phys. Plasmas, Vol.17, No5, (pp. 057101-1-- 057101-9) 2010
  154.  A.G. Russkikh, V.I. Oreshkin, A. Zhigalin, I. I. Beilis, R. B. Baksht, " Expansion of the plasma corona from a wire exploded in vacuum", Phys. Plasmas, Vol.17, No3, (pp. 033505-7), 2010.
  155.  I.I. Beilis, Y. Koulik, R.L. Boxman and D. Arbilly, “Thin film deposition using a plasma source with a refractory anode vacuum arc”, J Mater Sci, v45 N23, p.6325, 2010
  156.  I.I. Beilis, "The nature of high voltage initiation of an electrical arc in a vacuum", Appl. Phys. Lett. 97, 121501 2010.
  157.  I.I. Beilis, Y. Koulik, R.L. Boxman and D. Arbilly, “Al and Zn film deposition using a vacuum arc plasma source with a refractory anode", Surface and Coatings Technology, 205, N , 2010, p. 2369–2374.
  158. M. Keidar, I.I. Beilis, "On a Model of Nanoparticle Collection by an Electrical Probe", IEEE Trans. Plasma Sci., Vol.38, N11, 2010, (pp. 3249- 3251).
  159. N. Parkansky, I.I. Beilis, D. Gindin, B. Alterkop, R.L. Boxman, A. Moshkovich, V. Perfilyev, L. Rapoport, Yu. Rosenberg, "Steel Surface Modification by Pulsed Air Arc Treatment", “Surface and Coatings Technology” 205 N2 287-293 2010.
  160. T. Zhuang, A. Shashurin, M. Keidar, I.I. Beilis, “Circular periodic motion of plasma produced by a small-scale vacuum arc", Plasma Sources Science and Technology, Technol. 20 015009 (4pp) 2011.
  161. I.I. Beilis, "Special Issue on Electrical Discharges in Vacuum", IEEE Trans. Plasma Sci., Vol.39, N6, Part 1, 2011, (pp.1030- 1270-1271).
  162. I.I. Beilis, " Continuous Transient Cathode Spot Operation on a Microprotrusion: Transient Cathode Potential Drop", IEEE Trans. Plasma Sci., Vol.39, N6, Part 1, 2011, (pp. 1277-1283).
  163. I.I. Beilis, Y. Koulik, R.L. Boxman, " Temperature Distribution Dependence on Refractory Anode Thickness in a Vacuum Arc: Experiment", IEEE Trans. Plasma Sci., Vol.39, N6, Part 1, 2011, (pp. 1303-1306).
  164. I.I. Beilis, Y. Koulik, R.L. Boxman, " Temperature Distribution Dependence on Refractory Anode Thickness in a Vacuum Arc: Theory", IEEE Trans. Plasma Sci., Vol.39, N6, Part 1, 2011, (pp. 1307-1310).
  165. A Shashurin, J. Li, T. Zhuang, M. Keidar, I.I. Beilis, “Application of electrostatic Langmuir probe to atmospheric arc plasmas producing nanostructures”, Phys. Plasmas, Vol.18, No7, (pp. 073505 -1-- 073505 -7) 2011.
  166. I.I. Beilis, Y. Koulik, R.L. Boxman, "Evolution of a Plasma Plume From a Shower Anode in a Vacuum Arc With a Black-Body Electrode Configuration", IEEE Trans. Plasma Sci., Vol.39, N11, Part 1, 2011, (pp. 2838-2839).
  167. N. Parkansky, I.I. Beilis, B. Alterkop, R.L. Boxman, Yu. Rosenberg, "Magnetic field influence on pulsed air arc anode mass loss", J. Phys. D: Appl. Phys. 45 (2012) 045401 (6pp).
  168.  I.I. Beilis, Y. Koulik, R.L. Boxman, "Ion current density measurements in a copper vacuum arc with different refractory anode thicknesses", J. Appl. Phys, Vol.111, N, Part 1, 2012, (pp.043302-1 - 043302-6).
  169. T. Zhuang, A Shashurin, I.I. Beilis, M. Keidar, “Ion velocities in a micro-cathode arc thruster”, Phys. Plasmas, Vol.19, No6, (pp. 063501-1-- 063501-5) 2012.
  170. I.I. Beilis, “Modeling of the plasma produced by moderate energy laser beam interaction with metallic target: Physics of the phenomena”, Laser and Particle Beams, Volume 30, N3, 2012, 341-356.
  171. I.I. Beilis, Y. Koulik, R.L. Boxman, “Sn thin film deposition using a vacuum arc plasma source with a refractory anode", Surface and Coatings Technology, 232, N 15 October, 2013, p. 936–940.
  172. I.I. Beilis, "Cathode Spot Development on a Bulk Cathode in a Vacuum Arc", IEEE Trans. Plasma Sci., Vol.41, N8, Part II, 2013, (pp. 1979-1986).
  173. I.I. Beilis, Y. Koulik, R.L. Boxman, "Cu Ion Current Measurements in a Vacuum Arc with a Black Body Electrode Configuration", IEEE Trans. Plasma Sci., Vol.41, N8, Part II, 2013, (pp. 1987-1991).
  174. I.I. Beilis, Y. Koulik, R.L. Boxman, "Effective Cathode Voltage in a Vacuum Arc with a Black Body Electrode Configuration", IEEE Trans. Plasma Sci., Vol.41, N8, Part II, 2013, (pp. 1992-1995).
  175. A. Shashurin, T. Zhuang, G. Teel, M. Keidar, M. Kundrapu, J. Loverich, I. I. Beilis, and Y. Raitses, "Laboratory Modeling of the Plasma Layer at Hypersonic Flight", Journal of Spacecraft and Rockets, Vol. 51, No. 3 (2014) pp. 838-846.
  176. A. Shashurin, T. Zhuang, M. Kundrapu, J. Loverich, I.I. Beilis, and M. Keidar, " Modeling of a Plasma Layer in Vicinity of a Hypersonic Vehicle Using Cathodic Arc ", IEEE Trans. Plasma Sci., Vol.42, N10, Part I, 2014, (pp. 2660-2661).
  177. I.I. Beilis, Y. Koulik, R.L. Boxman, “Cu film deposition using a vacuum arc with a black-body electrode assembly", Surface and Coatings Technology, 258, 15 November, 2014, p. 908–912.
  178. I.I. Beilis, "Physics of Cathode Phenomena in a Vacuum Arc with respect to a Plasma Thruster Application", IEEE Trans. Plasma Sci., Vol.43, N1, Part I, 2015, (pp. 165-172).
  179. A. Shashurin, D, Scott, T. Zhuang, J. Canady, I.I. Beilis, and M. Keidar, "Electric discharge during electrosurgery", SCIENTIFIC REPORTS,| v4: 9946, p.1-7, 2015.
  180. N. Parkansky, V. Yakubov. I.I. Beilis, B., R.L. Boxman, O. Berkh,” Electrode erosion during submerged arc treatment of methylene blue water solution, J. Phys. D: Appl. Phys. 48, 225202, 2015.
  181. I.I. Beilis, B. Sagi, V. Zhitomirsky, and R.L. Boxman, Cathode Spot motion in a vacuum arc with a long roof-shaped cathode under magnetic field, J. Appl. Phys., Vol. 117, N23, 233303 (2015).
  182. I.I. Beilis, Y. Koulik, Y. Yankelevich, D. Arbilly, and R.L. Boxman " Thin-Film Deposition With Refractory Materials Using a Vacuum Arc ", IEEE Trans. Plasma Sci., Vol.43, N8, Part I, 2015, (pp. 2323-2328).
  183. I.I. Beilis, Mechanism of cathode spot splitting in vacuum arcs in an oblique magnetic field, Phys. Plasmas, 22, N10, 103510, 2015.
  184. M Keidar, A Shashurin S Delaire, X Fang and I I Beilis, Inverse heat flux in double layer thermal metamaterial, Journal of Physics D: Applied Physics, 48 485104 (4pp) 2015.
  185. I.I. Beilis, Metallic targets ablation by laser plasma production in a vacuum, Journal of Instrumentation (JINST) 11 N3, 03056 2016.
  186. I. Levchenko, I.I. Beilis, M Keidar, Nanoscaled Metamaterial as an Advanced Heat Pump and Cooling Media, Adv. Mater. Technol., 1 1600008 (10p), 2016.
  187. I.I Beilis, Vacuum arc cathode spot motion in oblique magnetic fields: An interpretation of the Robson experiment, Phys. Plasmas, 23 N9, 093501, 2016.
  188. Y. Silver, I. Nachshon, I.I. Beilis, G. Leibovitch, and G. Shafir, Velocity and ion charge in a copper plasma plume ejected from 5 microsecond vacuum arcs, J. Appl. Phys., Vol. 121, 053301, 2017.
  189. I.I. Beilis, Y. Koulik, R.L. Boxman, "Anode temperature evolution in a Vacuum Arc with a Black Body Electrode Configuration", IEEE Trans. Plasma Sci., Vol.44, N8, Part II, pp. 2115-2118, 2017.
  190. Zhitong Chen, Shiqiang Zhang, Igor Levchenko, Isak I. Beilis & Michael Keidar. In vitro Demonstration of Cancer Inhibiting Properties from Stratifed Self-Organized Plasma-Liquid Interface. Scientific Reports 7 N9, 12163, 2017.
  191. M. Keidar, D. Yan, I.I. Beilis, B. Trink, and J.H. Sherman, Opinion. Plasmas for Treating Cancer: Opportunities for Adaptive and Self-Adaptive Approaches. Trends in Biotechnology, Vol. 36 N6, 586-593, 2018.
  192. I.I. Beilis, Y. Yankelevich, R.L. Boxman, Plasma Generation in a Double Hot Anode Vacuum Arc. IEEE Trans. Plasma Sci., Vol.47, N8, Part I, pp. 3484-3487, 2019.
  193. I.I. Beilis, Vacuum arc cathode spot theory: History and evolution of the mechanisms (Invited paper. Dyke Award Presentation). IEEE Trans. Plasma Sci., Vol.47, N8, Part I, pp. 3412-3433, 2019.
  194. J. Kolbeck, A. Anders, I.I. Beilis, and M. Keidar, “Micro-propulsion based on vacuum arcs”, J. Appl. Phys., Vol. 125, 053301, 2019.
  195. I.I. Beilis, R. L. Boxman, “Thin Film Deposition by Plasma Beam of a Vacuum Arc with Refractory Anodes” Ch. in book “Advances in Thin Films, Nanostructured Materials, and Coatings” Eds. Alexander D. Pogrebnjak and Valentine Novosad, Springer 2019, pp. 1-17.
  196.  D. Yan, Li Lin, E. Gjika, C. Corbella, A. Malyavko, I.I. Beilis, J.H. Sherman, and M. Keidar, “Current Understanding of Mechanisms in Plasma Cancer Therapy and Recent Advances in Technology”. Ch. in book “Plasma Cancer Therapy”, Ed. M. Keidar, Springer, 2020, pp. 271-287.
  197. D.B. Zolotukhin, S.R.P. Bandaru, K.P. Daniels, I.I. Beilis, M. Keidar, “Demonstration of electric micropropulsion multimodality”, Science Advance. 8, eadc 9850 7 September, 2022.
  198. I.I. Beilis, D. Arbilly, Y. Yankelevich, R.L. Boxman, “Thin Zr Film Deposition Using a Refractory Anode Vacuum Arc Plasma Source”, IEEE Trans. Plasma Sci., Vol.50, N9, Part 2, pp. 2709-2713, 2022.
  199. I.I. Beilis, "Arc Spot on Film Cathode Using Kinetic Approach of Plasma Flow", IEEE Trans. Plasma Sci., Vol.50, N9, Part 2, pp. 2714-2719, 2022.
  200. Li Lin, Marshall R. McCraw, Berkin Uluutku, Yi Liu, Dayun Yan, Vikas Soni, Alex Horkowitz, Xiaoliang Yao, Ruby Limanowski, Santiago D. Solares, Isak I. Beilis, and Michael Keidar, “Cell Membrane Oscillations under Radiofrequency Electromagnetic Modulation”, Langmuir, 39, 3320−3331, 2023.
  201. I.I. Beilis, “Magnetoplasmadynamic acceleration of solid body in a railgun”, Journal of Electric Propulsion. 2:15, 18 p. 2023

Books

 

  1. 1. I.I. Beilis, Translation from Germany a part of Ch.1 from book G.Mierdel "Electrophysik" VEB Verlag technik, Berlin, 1970 to that book published in Russian, Mir, Moskow, 1972
  2. I.I. Beilis, V.A. Bityurin, U.A. Vasiljeva, V.V. Kirillow, G.A. Lyubimov, S.A. Medin, A.E. Sheindlin, B.Ya. Shumjatsky, MHD energy conversion. Physical and technical aspects, edited by V.A. Kirillin and A.E. Sheindlin, Moscow: Nauka, 1983, (368 pp.) English translation: New York, N.Y., American Institute of Aeronautics and Astronautics, Inc., 1986.
  3. I.I. Beilis, “Theoretical Modeling of Cathode Spot Phenomena” in Vacuum Arc Science and Technology, R.L.Boxman, P. Martin, D. Sanders (editors)   Park Ridge, NJ, Noyes Publications, 1995).
  4. M. Keidar, I.I. Beilis,"Plasma Engineering: Applications from Aerospace to Bio and Nanotechnology", (Acad Press, Elsevier, London-NY, 2013).
  5. M. Keidar, I.I. Beilis,"Plasma Engineering", Second Edition (Acad Press, Elsevier, London-NY, 2018).
  6. I.I. Beilis, "Plasma and Spot Phenomena in Electrical Arcs", Volume 1 Springer Nature, Switzerland, AG, 2020.
  7.  I.I. Beilis, "Plasma and Spot Phenomena in Electrical Arcs", Volume 2 Springer Nature, Switzerland, AG, 2020.
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