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  1. E.V. Kozlov, A.I. Ryabchikov, Yu.P. Sharkeev, I.B. Stepanov, S.V. Fortuna, D.O. Sivin, I.A. Kurzina, T.S. Prokopova, I.A. Mel’nik Formation of intermetallic layers at high intensity ion implantation. Surface and Coatings Technology, 158–159 (2002) 343–348; doi: 10.1016/S0257-8972(02)00275-X
  2. A.I. Ryabchikov, I.A. Ryabchikov, I.B. Stepanov, D.O. Sivin Recent advances in surface processing with the filtered DC vacuum-arc plasma. Vacuum, 78, 2–4, (2005) 445–449; doi: 10.1016/j.vacuum.2005.01.066
  3. I.A. Kurzina, E.V. Kozlov, Yu.P. Sharkeev, A.I. Ryabchikov, I.B. Stepanov, I.A. Bozhko, M.P. Kalashnikov, D.O. Sivin, S.V. Fortuna Influence of ion implantation on nanoscale intermetallic-phase formation in Ti–Al, Ni–Al and Ni–Ti systems. Surface & Coatings Technology 201 (2007) 8463–8468; doi: 10.1016/j.surfcoat.2006.02.062
  4. I.B. Stepanov, A.I. Ryabchikov, D.O. Sivin, and D.A. Verigin Pseudo ribbon metal ion beam source. Review of Scientific Instruments, 85, (2014) 02C104; doi: 10.1063/1.4854235
  5. A.I. Ryabchikov, D.O. Sivin, A.I. Bumagina, O.S. Tupikova, N.V. Daneikina Titanium microparticles density decreasing on the sample surface, immersed in plasma, at repetitively pulsed biasing. Applied Surface Science, 310 (2014) 126-129; doi: 10.1016/j.apsusc.2014.03.128
  6. A.I. Ryabchikov, D.O. Sivin, A.I. Bumagina, E.N. Bolbasov, N.V. Daneikina Investigation of the possibility of unfiltered aluminum vacuum arc plasma application for high-frequency short-pulse plasmaimmersion ion implantation. Applied Surface Science. 310 (2014) 120–125 doi:10.1016/j.apsusc.2014.03.129
  7. A.I. Ryabchikov, D.O. Sivin, A.I. Bumagina Reprint of: Physical Mechanisms of macroparticles density decreasing on a substrate surface immersed in a vacuum arc plasma at negative high-frequency shortpulsed biasing. Applied Surface Science 310 (2014) 115–119; doi:10.1016/j.apsusc.2014.05.101
  8. I.B. Stepanov, A.I. Ryabchikov, P.S. Ananin, S.V. Dektyarev, D.O. Sivin, and D.A. Verigin Plasma immersion ion charge state and mass spectrometer. Review of Scientific Instruments, 85 (2014) 02A733–02A733-3; doi: 10.1063/1.4852219
  9. A.I. Ryabchikov , D.O. Sivin , A.I. Bumagina Influence of Bias Parameters and Plasma Density to Vacuum Arc Macroparticles Accumulation. Materials and Manufacturing Processes, 30 (12) (2015) 1471–1475; doi: 10.1080/10426914.2015.1019094
  10. I.B Stepanov, A.I. Ryabchikov, P.S. Ananin, A.I. Bumagina, A.E. Shevelev, I.A. Shulepov, D.O. Sivin Investigation of Filtered Vacuum Arc Plasma Application for TiAlN and TiSiB coatings deposition using Ion Beam and Plasma Material Processing. Surface and Coatings Technology 296 (2016) 20–25; doi: 10.1016/j.surfcoat.2016.04.012
  11. I.B Stepanov, A.I. Ryabchikov, P.S. Ananin, D.O. Sivin, A.E. Shevelev, S.G. Zhelomsky Tangential cathode magnetic field and substrate bias influence on copper vacuum arc macroparticle content decreasing. Surface and Coatings Technology 306 (2016) 21–24; doi: 10.1016/j.surfcoat.2016.04.003
  12. A.I. Ryabchikov, P.S. Ananin, D.O. Sivin, S.V. Dektyarev, A.I. Bumagina A.E. Shevelev, D.A. Andriyashin Influence of negative bias pulse parameters on accumulation of macroparticles on the substrate immersed in titanium vacuum arc plasma. Surface and Coatings Technology 306 (2016) 251–256; doi: 10.1016/j.surfcoat.2016.06.026
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