User:E. V. Shun'ko
Evgeny V. Shun’ko (russ. Евгений В. Шунько)
(Short Autobiography)
July 16, 2013
Biography
[edit]I was born in Omsk city, Russia, at June 2, 1937.
After completing a high school in Omsk, I enrolled in the Department of Physics at the Ural Polytechnic Institute in Sverdlovsk (presently Ekaterinburg) in 1954, and later transferred to the Novosibirsk State University in Akademgorodok where I received Master’s Degree in Physics and Mathematics. At that time, the Novosibirsk State University was just founded by Academician Professor Mikhail Lavrentyev and attracted some of most renowned Russian scientists.
In 1974, I received Ph.D. Degree in Physics and Mathematics from the Novosibirsk State University after completing a doctoral thesis entitled “High Power CO2 Laser with Plasma in E x B Fields”.
I had done my post-doctoral training at the Institute of Nuclear Physics in Academgorodok at the Laboratory of Professor Gersh Budker, director of Institute of Nuclear Physics, with whom I worked closely on a thermonuclear fusion problem and co-authored several papers. Later, I continued to work on plasma confinement for the thermonuclear fusion as a senior scientist at the Institute of Nuclear Physics (currently Budker Institute of Nuclear Physics).
In 1991, I moved with my family to Pittsburgh, Pennsylvania, USA, where I held a professor assistant position at the High Energy Department of the University of Pittsburgh.
In 1994, I moved to Ann Arbor, Michigan, to join Guardian Industries Corp. as a Senior Scientist.
In 1999, I accepted position a Chief Scientist at the Wintek Electro - Optics corp.
In 2015 until the present time, I am a Chief Scientist at AMPRES, Inc.. I have 44 technical articles in plasma physics (and around) including a monograph: “Langmuir Probe in Theory and Practice, Universal Publishers, Boca Raton, Florida, USA, 2009 [39].
Areas of Expertise
[edit]a. Langmuir probe. Theory, Experiments, Applications. Most Advanced Results: Applications of Cylindrical Langmuir probe for measurements of parameters of electron flows in plasma [15,39].
b. Dielectric barrier discharge (DBD). Theory, Experiments, Applications. Most Advanced Results: Method for calculations of DBD parameters from IV characteristic of discharge. Applications of DBD for production and transport of excited atomic oxygen in mixtures of Ar + ~2%O2 [37] and N2 + ~2×10-3 %O2 [42].
c. Applications of excited atomic oxygen for cleaning surfaces, improving their adhesion [42], and for crystallization of amorphous Indium Tin Oxide (ITO) on substrate surface [43]. Most Advanced Results: Crystallization of amorphous Indium Tin Oxide (ITO) on substrate surface [43]. Development of “point”-type [37] and linear [42] DBD devices for industrial cleaning of glass boards on conveyor lines in Flat Display production (Wintek).
d. RF plasmas, Theory, Experiments, Applications. Most Advanced Results: Development of plasmas with electron populations of ~100 eV energy [44] by solution of Hamilton-Jacobi equation for plasma electrons in axial electromagnetic fields of solenoidal type radio frequency inductively coupled plasma sources. Application of plasmas with electron populations of ~100 eV energy for direct deposition of crystalline forms of materials from plasma on a glass substrate.
References
[edit]1. E.S.Gluskin, O.Ya.Savchenko, E.V.Shun’ko. The fiber-optic light guide device for rapid registration of spectral line shape. Reprint of Institute of Nuclear Physics # 1-6 (Novosibirsk 1968). [Russian].
2. Yu.G.Kononenko, O.Ya.Savchenko, E.V.Shun’ko. The possible avalanche-type mechanism of discharge in crossed E and H fields. J. Tech. Phys., 2, 269-272(1969). [Russian].
3. V.V.Danilov, E.P.Kruglyakov, E.V.Shun’ko. The measurements of the probability of the transition P20(00º1 - 10º0) CO2 and broadening in collisions with CO2, N2, He. J. Appl. Mech. and Tech. Phys., 13(6), 783-786 (1974).
4. V.V.Danilov, E.P.Kruglyakov, E.V.Shun’ko. Cylindrical probe in nitrogen plasma of a glow discharge at average pressures. J. Appl. Mech. and Tech. Phys., 14(2), 159-163 (1974).
5. G.I.Budker, V.V.Danilov, E.P.Kruglyakov, D.D.Ryutov, E.V.Shun’ko. Experiments on the confinement of an alkaline plasma in a corrugated magnetic field. Soviet Physics JETP Lett. 17(2), 81-84 (1973).
6. G.I.Budker, V.V.Danilov, E.P.Kruglyakov, D.D.Ryutov, E.V.Shun’ko. Experiments on plasma confinement in multiple-mirror trap. Soviet Physics JETP 38(2), 276-282 (1974).
7. V.V.Danilov, E.P.Kruglyakov, E.V.Shun’ko. Nonsteady-state experiments on plasma confinement in multiple-mirror trap. In Proc. Sixth Europ.Conf. on Control.Fus. and Plasma Phys., 415-419 (Moskow, 1973).
8. E.V.Shun’ko. A study of elementary processes in gas-discharge plasma. Reprint of Institute of Nuclear Physics #75-76, 1-35 (Novosibirsk, 1975). [Russian].
9. V.E.Chaplik, M.Ya.Subbotin, E.V.Shun’ko. Problems of Heliobyology (monograph). Novosibirsk’s Pub. House (1977). [Russian].
10. E.V.Shun’ko. Experimental measurements of the electron branch of Langmuir probe I-V characteristic. Reprint of Institute of Nuclear Physics # 83-136, 1-42 (Novosibirsk, 1983). [Russian].
11. P.A.Bagryansky, E.V.Shun’ko. Influence of different procedures of Langmuir probe surface cleaning on its I-V characteristic. J. Sci. Instrum.Tech. Exp., 2, 166-167 (1986). [Russian].
12. E.V.Shun’ko. Influence of magnetic field transverse to discharge on near-cathode drop in potential. In Proc. 3 rd Nat. Conf. on Gas-Discharge Phys., Part 3, 471-473 (Kiev, 1986). [Russian].
13. E.V.Shun’ko. Influence of magnetic field parallel to the cathode surface on the near-cathodedrop in potential in a normal glow discharge. Phys.Lett. A 128(8), 433-436 (1988).
14. E.V.Shun’ko. Influence of Langmuir probe dimensions on its V-A characteristic. Phys.Lett. A 147(1), 317-322(1990).
15. E.V.Shun’ko. V-A characteristic of a cylindrical probe in a plasma with electron flow.Phys.Lett. A 147(1), 37-43 (1990).
16. E. Bender, A. Kabantsev, V. Sokolov, S. Taskaev, V. Chupriyanov, E. Shun’ko. AMBAL-Yu diagnostic System. V All-Union Workshop on High Temperature Plasma Diagnostics. Minsk. June 18-22, 201 (1990).
17. E.D.Bender, V.E.Chupriyanov, G.I.Dimov, A.A.Kabantsev, E.V.Shun’ko, V.V.Sokolov, S.Yu.Taskaev. The AMBAL-U experiment. In Proc. Int. Sch. Plasma Phys., Villa Monastero – Varena, Italy, 157 - 170 (Varena, October 15 - 24, 1990).
18. E.V.Shun’ko. Two asymmetric double-probe configurations that measure I-V characteristic in an unstable plasma. Rev. Sci. Instrum., 61(9), 2471-2472 (1990).
19. E.V.Shun’ko. Experimental study of correspondence between the electron distribution function in plasma and the second derivative of the Langmuir probe I-V characteristic. J. Appl. Phys., 70(3), 1235-1239 (1991).
20. E.V.Shun’ko. Some features of power balance in gas discharge in CO2, N2, and their mixtures with He. J. Appl. Phys., 70(12), 7273-7281 (1991).
21. E.V.Shun’ko. Influence of cylindrical probe resistance on its I-V characteristic. Rev. Sci. Instrum. 62(12), 3111-3112 (1991).
22. E.V.Shun’ko. Influence of different Langmuir probe surface cleaning procedures on its I-V characteristic. Rev. Sci. Instrum. 63(4), 2330-2331 (1992).
23. E.V.Shun’ko. Investigation of electron plasma component produced by some types of gas-discharge arc sources. Phys. Rev. A 46(6), 3433-3441 (1992).
24. E.V.Shun’ko. Influence of cylindrical Langmuir probe diameter on ion branch of its I-Vcharacteristic. Rev. Sci. Instrum. 63(11), 5245-5251 (1992).
25. R.Johnsen, E.V.Shun’ko. Langmuir probe measurements in flowing afterglow plasma. In Proc. 46th Annual Gaseous Electronic Conference. Montreal, Canada (October, 1993).
26. E.V.Shun’ko. Screwdriver Blade. Patent USA Number 5,317,940 (June 7, 1994).
27. R.Johnsen, E.V.Shun’ko, and T.Gougousi, M.F.Golde. Langmuir-probe measurements in flowing-afterglow plasmas. Phys. Rev. E 50(5), 3994-4004 (1994).
28. E.V.Shun’ko. RF Plasma Source with Closed Ferrite Core. USA Patent Number 5,998,933 (Dec. 7, 1999).
29. E.V.Shun’ko. Tip Portion of Drill Bit. USA Patent Number 6,036,410 (Mar. 14, 2000).
30. E.V.Shun’ko. Direct Current Gas-Discharge Ion-Beam Source with Quadrupole Magnetic System. USA Patent Number 6,259,102 B1 (Jul. 10, 2001).
31. R. Appel, G. S. Atoyan, B. Bassalleck, E. Battiste, D. R. Bergman, K. Bösiger, D. N. Brown, V. Castillo, N. Cheung, S. Dhawan, J. Egger, S. W. Eilerts, C. Felder, H. Fischer, H. M. Gach, R. Giles, S. N. Grinenko, W. D. Herold, J. E. Hotmer, V. V. Issakovo. V. Karavichev, H. Kaspar, D. E. Kraus, D. M. Lazarus, V. A. Lebedev, L. Leipuner, P. Lichard, J. Lowe, J. Lozano, T. Lu, H. Ma, B. Magurno, W. Majid, W. Menzel, C. S. Miller, M. Nickelson, I. Ober, P. H. Pile, S. Pislak, A. A. Poblaguev, P. Pomianowski, V. E. Postoev, A. L. Proskurjakov, P. Rehak, P. Robmann, B. Schmid, A. Sher, E. V. Shunko, C. Steiner, T. L. Stever, R. W. Stotzer, V. V. Suhov,J. A. Thompson, P. Truöl, C. Valine, H. Weyer, D. M. Wolfe, M. E. Zeller. A large acceptance, high-resolution detector for rare K+ -decay experiments. Nuclear Instruments & Methods in Physics Research Section A, vol. 479, no. 2, pp. 349-406 (2002).
32. E.V.Shun’ko. Inductive RF Plasma Source with External Discharge Bridge. USA Patent Number 6,392,351 B1 (May 21, 2002).
33. E.V.Shun’ko. I-V characteristics of the Langmuir probe in flowing afterglow plasmas. J. Appl. Phys. 93(7), 3729-3746 (2003).
34. E.V.Shun’ko. RF Loaded-Line Type Capacitive Plasma Sources for Broad Range of Operating Gas Pressure. USA Patent 6,707,051 B2 (Mar. 16, 2004).
35. E.V.Shun’ko. Process for Structural Modification of Surfaces by Treatment with an Atomic or Molecular Gaseous Medium Excited to Metastable Level. USA Patent 6,710,333 B2 (Mar. 23, 2004).
36. E.V.Shun’ko and V.S.Belkin. Cleaning and Improving Adhesion of Surfaces by their treatment with Excited Atomic Oxygen. In Proc. 49th SVS Annual Technical Conference 378 – 384 (2006).
37. E.V.Shun’ko and V.S.Belkin. Cleaning Properties of atomic oxygen excited to metastable state 2s22p4(1S0). J. Appl. Phys 102, 083304 (2007).
38. E.V.Shun’ko. RF Plasma Source with Quasi-Closed Ferrite Core. USA Patent 7,514,875 B2, (2009).
39. E.V.Shun'ko. Langmuir Probe in Theory and Practice, 1 ed. (Universal-Publishers, Boka Raton, Fl., 2009). ISBN 978-1-59942-935-9
40. E.V.Shun'ko, V.S.Belkin. Cleaning and Improving Adhesion of Surfaces by their Treatment with Excited Nitrogen. In Proc. 7th International Symposium on Polymer Surface Modification. (Orono, USA, 2009).
41. E.V.Shun’ko. RF Plasma Source with Quasi-Closed Solenoidal Inductor. USA Patent 7,884,551 B2 (2011).
42. E.V.Shun'ko and V.S.Belkin. Treatment Surfaces with Atomic Oxygen Excited in Dielectric Barrier Discharge Plasma of O2 Admixed to N2. AIP ADVANCES, 2, 022157-24 (2012).
43. V.A.Sterligov, E.V.Shun’ko, I.O.Gritsaienko, and L.V.Poperenko. Fabrication and Properties of ITO films treated by excited atomic oxygen. Applied Optics, 51, No. 12, 1997-2003 (2012).
44. E.V.Shun'ko, D.E. Stevenson, and V.S. Belkin. Inductively Coupling Plasma Reactor With Electron Energy Controllable in the Range from ~6 to ~100 eV. IEEE Transactions on Plasma Science. V. 42, Number 3, PART II, 734-835 (2014). ISSN 0093-3813, DOI 10.1109/TPS.2014.2299954