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PLASMAOPTICS RESEARCH GROUP

Bibliography

Basic principles of Plasmaoptics

  1. A. Goncharov "Plasmaoptical devices" in "Handbook of Ion Sources" (B.H. Wolf), CPC Press, 1995, P. 379.
  2. A.I. Morozov, S.V. Lebedev, "Plasmaoptics" in Reviews of Plasma Physics, edited by Leontovich M. (New York: Consultants Bureau, 1975).

Current status of plasmaoptical devices

  • A. Goncharov, I. Brown. "Plasma Devices Based on the Plasma Lens — A Review of Results and Applications" // IEEE Trans. Plasma Sci.- 2007.- Vol. 35, NO. 4, P. 986-991. PDF

Electostatic Plasma Lenses
(static and dynamic properties)

  1. Yu. Chekh, A. Goncharov, I. Protsenko, and A. Dobrovolsky, I. Brown. "Electrostatic plasma lens for accelerator injection application" // Rev. Sci. Instrum.- 2006.- Vol. 77, 03B906.
  2. Yu. Chekh, A. Dobrovolsky, A. Goncharov, I. Protsenko, I. Brown. "Compression of Large Area, High Current Ion Beams by an Electrostatic Plasma Lens" // Nucl. Instr. and Meth. in Phys. Res. B.- 2006.- Vol. 243, N 1.- P. 227-231.
  3. Yu. Chekh, A. Goncharov, I. Protsenko, I. Brown. "Effect of the electrostatic plasma lens on the emittance of a high current heavy ion beam" // Appl. Phys. Lett.- 2005.- Vol. 86, N 4.- P. 041502-041502.3.
  4. A. Goncharov, I. Protsenko, Yu. Chekh. "Low-pressure Glow Discharge in Plasma Lenses on Permanent Magnets"// Ukrainian Journal of Physics.- 2005.- Vol.50, N 6, P. 563-568.

  5. Yu. Chekh, A. Goncharov, I. Protsenko. "Static and dynamic characteristics of plasma lens with modified magnetic field geometry" // Rev. Sci. Instrum.- 2004.- Vol. 75, N 5.- P. 1001-1003.
  6. A. Goncharov, I. Brown. "High-Current Heavy Ion Beams in the Electrostatic Plasma Lens" (Invited Paper)// IEEE Trans. Plasma Sci.- 2004.- Vol. 32, PART 1, P. 80-83.
  7. A. Goncharov, V. Gorshkov, V. Maslov, V. Zadorozhny, I. Brown. "The low-field permanent magnet electrostatic plasma lens" // Rev. Sci. Instrum.- 2004.- Vol. 75, N 5, P. 1662-1664.
  8. V. Gorshkov1, A. Goncharov, A. Zavalov. "Numerical simulations of a high-current plasma lens" // Plasma Physics Reports.- 2003.- Vol. 29, N 10.- P. 874-882.
  9. A. Goncharov, V. Gorshkov, S. Gubarev, A. Dobrovosky, I. Protsenko, I. Brown. "Permanent magnet plasma lens"// Rev. Sci. Instrum.- 2002.- Vol. 73, N 2.- P. 1001-1003.
  10. A. Goncharov. "Status of the electrostatic plasma lens" // Rev. Sci. Instrum.- 2002.- Vol. 73, N 2, P. 1004-1006.
  11. A. Goncharov, I. Protsenko, G. Yushkov, I. Brown. "Manipulating Large-Area, Heavy Metal Ion Beams with a High-Current Electrostatic Plasma Lens" // IEEE Trans. Plasma Sci.- 2000.- Vol. 28, PART 6.- P. 2238-2246.
  12. A. Goncharov, I. Protsenko, G. Yushkov, O. Monteiro, and I. Brown. "High-dose ion implantation using a high-current plasma lens" // Surface and Coating Technology.- 2000.- Vol. 128-129.- P. 15-20.
  13. A. Goncharov, S. Gubarev, A. Dobrovol'skii, I. Litovko, I. Protsenko."Focusing of heavy ion beams by a high-current plasma lens"// Plasma Physics Reports.- 2000.- Vol. 26, N 9.- P. 786-791.
  14. A. Goncharov, I. Protsenko, G. Yushkov, I. Brown. "Development of a high-current plasma lens for focusing broad beams of heavy metal ions" // Rev. Sci. Instrum.- 2000, Vol 71, PART 3.- P. 1401-1404.
  15. A. Goncharov, I. Protsenko, G. Yushkov, Brown I. "Focusing of high-current, large-area, heavy-ion beams with an electrostatic plasma lens" // Appl. Phys. Lett.- 1999.- Vol. 75, N 7, P. 911-913.
  16. A. Goncharov, S. Gubarev, A. Dobrovolskii, I. Protsenko, I. Litovko, I. Brown. "Moderate Energy Metal Ion Beam Focusing by a High-Current Plasma Lens" // IEEE Trans. Plasma Sci.- 1999.- Vol. 27, N 4, P. 1068-1072.
  17. A. Goncharov, A. Dobrovolsky, I. Protsenko, V. Kaluh, I. Onishenko, I. Brown. "Some characteristics of moderate energy metal ion beam focusing by a high current plasma lens" // Rev. Sci. Instrum.- 1998.- Vol. 69, N 2.- P. 1135-1137.
  18. A. Goncharov. "Production and control of high current ion beams in plasma-optical systems" // Rev. Sci. Instrum.- 1998.- Vol. 69, N 2, P. 1150-1152.
  19. A. Goncharov, A. Dobrovol'skii, V. Zadorozhnyi. On the transformation of the radial profile of an intense ion beam by a plasma lens// Technical Physics.- 1997.- Vol. 42, N 8.- P. 942-944.
  20. A. Goncharov, A. Dobrovolsky, I. Litovko, I. Protsenko, and V. Zadorodzny. "High-current plasma lens: New results and applications" // Rev. Sci. Instrum.- 1996.- Vol. 67, N 3, P. 1155-1157.
  21. A. Goncharov, I. Protsenko, and A. Dobrovolsky. "Characteristics of low-energy intense ion beam formation and transport" // Rev. Sci. Instrum.- 1996.- Vol. 67, N 3, P. 1073-1075.

Nonlinear structures in Electrostatic Plasma Lens

  1. Yu. Chekh, A. Goncharov, I. Protsenko. "Large-scale electron vortex structure formation in a plasma lens" // Technical Physics Letters.- 2006.- Vol. 32, N 1.- P. 51-54.
  2. A. Goncharov, V. Maslov, and I. Onishchenko. "Vortex electron dynamics in a high-current plasma lens" // Plasma Physics Reports.- 2004.- Vol. 30, N 8.- P. 662-670.
  3. A. Goncharov, I. Litovko. "Electron vortexes in high-current plasma lens" // IEEE Trans. Plasma Sci.- 1999.- Vol. 27, N 4.- P. 1073-1078.

Anode Layer Accelerator / Anode Layer Thruster

  1. A. Goncharov et al. Plasma Devices for Ion Beam and Plasma Deposition Applications //Problems of Atomic Science and Technology. 2005, # 1, Series: Plasma Physics (10), p. 169-171.
  2. Dobrovol`s`kii A.N., Goncharov A.A., Pavlov S.N., Panchenko O.A., Protsenko I.M. Modernized technological accelerator with anode layer for ion cleaning //Problems of Atomic Science and Technology. 2002, #4, Series: Plasma Physics(7), p. 176-178.
  3. Goncharov A.A., Dobrovolskiy A.N., Pavlov S.N., Panchenko O.A, Protsenko I.M. Technological accelerator with closed electron drift for surface treatment //Problems of Atomic Science and Technology. 2000, #6, Series: Plasma Physics (6), p. 160-162.
  4. Pavlov S.N., Goncharov A.A., Dobrovolsky A.N., Protsenko I.M. Peculiarities of self-sustained discharge in closed electron drift accelerator based on permanent magnets //Problems of Atomic Science and Technology. 2002, #5, Series: Plasma Physics(8), p. 133-135.

Liquid Crystal Alignment

  1. A. Goncharov et al. "Plasma Devices for Ion Beam and Plasma Deposition Applications," Problems of Atomic Science and Technology, 2005, No 1, Series: Plasma Physics (10), P. 169-171.
  2. O. Yaroshchuk, R. Kravchuk, A. Dobrovolskyy, P.C. Liu, C.D. Lee, O.D. Lavrentovich. The Multimode LC Alignment on the Substrates Obliquely Treated with a Plasma Flux // Mol. Cryst. Liq.Cryst., 433, (2005), P. 1-12.
  3. Yaroshchuk O.V. et al. Vacuum "brusher" for the alignment treatment of the large area LCD substrates // IMID 05 Digest 2005.- P. 768-773.

© 2007 Plasmaoptics Research Group; WebMaster: Yu. Chekh, e-mail: chekh at iop.kiev.ua; Updated: September 1, 2007