VIth INTERNATIONAL WORKSHOP
on
 MICROWAVE DISCHARGES: Fundamentals and Applications

11 - 15 September 2006, Zvenigorod, Russia

 
Main
Programme
   11 September
   12 September
   13 September
   15 September
Contact information
History




12 September 2006
II. MICROWAVE PLASMA GENERATION

  1. F.M. Dias, E. Tatarova, J. Henriques and C.M. Ferreira (Centro de Fisica dos Plasmas, Instituto Superior Tecnico, 1049-001 Lisboa, Portugal)
Large-scale microwave plasma sources. (21 kb)
(plenary)

  2. I.A. Kossyi, N.K. Berezhetskaya, V.A. Kop'ev, N.I. Malykh, M.A. Misakyan, V.P. Silakov, M.I. Taktakishvili, S.M. Temchin, Young Dong Lee* (A.M. Prokhorov General Physics Institute of RAS, Moscow, Russia, *Samsung Advanced Institute of Technology, Korea)
Microwave plasma sources based on a "plasma resonance" phenomenon. (20 kb)
(plenary)

  3. L.L. Alves and S. Letout (Centro de Fisica dos Plasmas, Instituto Superior Tecnico, Lisboa, Portugal)
New features on surface-wave discharges: boundary phenomena and power deposition. (24 kb)
(plenary)

  4. A. Kono, T. Shibata, M. Aramaki (Nagoya University, Nagoya 464-8603, Japan)
Atomospheric-pressure high-density non-thermal plasma produced in microgap. (24 kb)
(plenary)

  5. H. Shindo, K. Kusaba and S. Tanaka* (Department of Information Telecommunication and Electronics, Tokai University, Hiratsuka, 259-1292 Japan, *Structural Ceramic Division, Kyocera Co., Ltd., Shiga, Yohkaichi 527-8555, Japan)
High density plasma production by surface-wave in a very high permittivity dicscharge tube. (22 kb)
(plenary)

  6. S. Golubev, A. Bokhanov, I. Izotov, S. Razin, A. Sidorov, V. Skalyga, A.Vodopyanov, V. Zorin (Institute of Applied Physics RAS, Nizhny Novgorod, Russia)
Quasi-gasdynamic ECR sources of multicharged ions. (22 kb)

  7. Essam Abdel Fattah, Syuitsu Fujii* and Haruo Shindo (Department of Information Telecommunication and Electronics, Tokai University, Hiratsuka, 259-1292 Japan, *ADTEC Co., Ltd., 5-6-10 Hikinocho, Fukuyama 721-0942, Japan)
Large-scaled line plasma production by evanescent microwave in a narrow rectangular waveguide. (22 kb)

  8. Naoji Yamamoto, Shinya Kondo, Takayasu Kanagawa, Takayuki Chikaoka, Kajimura Yoshihiro, Hideki Nakashima (Department of Advanced Energy Engineering Science, Graduate School of Engineering Sciences, Kyushu University)
Development of miniature microwave discharge ion thruser. (21 kb)

  9. Y. Oda, K. Komurasaki, K. Takahashi*, A. Kasugai* and K. Sakamoto* (The University of Tokyo, Kashiwa, Japan, *Japan Atomic Energy Agency, Naka, Japan)
Observation of a shock wave and an ionization front propagation in a microwave beaming thruster. (22 kb)

10. D.E. Vovchenko, G.V. Khodachenko, G.V. Krashevskaya, V.A. Kurnaev, D.S. Naumov, M.M. Tsventoukh (Moscow Engineering Physics Institute (State University), Moscow, Russia)
Investigation of the microwave plasma in the magnetic trap "MAGNETOR". (23 kb)

POSTERS
  1. A. Didenko, A. Prokopenko, B. Zverev (Moscow engineering physics institute (state university), Moscow, Russia)
    Sulfur light sources with minimal microwave power. (22 kb)

  2. V.V. Andreev, A.A. Balmashnov, A.V. Kalashnikov, A.M. Umnov (People's Friendship University of Russia, Moscow, Russia)
    Plasma creation in microwave discharge source CERA-R. (24 kb)

  3. Yu.A. Lebedev, V.A. Shakhatov (A.V. Topchiev Institute of Petrochemical Synthesis RAS, Moscow, Russia)
    Nonequilibrium nitrogen kinetics of microwave plasma. (21 kb)

  4. D.V. Khmara, Yu.F. Kolesnichenko (IHT RAS, Moscow)
    Software package for kinetic and spectra emission modeling of gas discharge plasma. (23 kb)

  5. I.A. Boriev (Institute for Energy Problems of Chemical Physics (Branch) RAS, Chernogolovka, Russian Federation)
    Earlier unknown fundamental characteristics of electron transport and heating in substance under the force of electric field. (30 kb)

  6. D. Czylkowski, M. Goch, J. Mizeraczyk, Z. Zakrzewski (Centre for Plasma and Laser Engineering, The Szewalski Institute of Fluid Flow Machinery, Polish Academy of Sciences, 80-231 Gdansk, Poland)
    Continuous and pulsed microwave sustained surface wave discharges in neon. (27 kb)

  7. P.V. Kozlov, E.B. Kulumbaev, V.M. Lelyovkin (Kyrgyz-Russian Slavic University, Kyrgyzstan, Bishkek)
    Channel model of ceramic plate heating with help of microwave space. (23 kb)

  8. V. Babenko, V. Grigorjantz, L. Kochmarev, I. Shilov (Institute of Radioengineering and Electronics RAS, Frjazino, Russia)
    High aperture silica lightguides produced by the microwave plasmotron of waveguide type. (29 kb)

  9. O. Leroy, P. Leprince, C. Boisse-Laporte (Laboratoire de Physique des Gaz et des Plasmas Universite Paris-Sud, ORSAY, France)
    Investigation of slow and rapid waves coupling in cylindrical surface wave excited plasmas. (22 kb)

  10. M.S. Gitlin, V.V. Golovanov, A.G. Spivakov, V.V. Zelenogorsky (Institute of Applied Physics, Russian Academy of Sciences, Nizhny Novgorod, Russia)
    Time-resolved imaging of microwaves using visible continuum emitted by the positive column of a Cs-Xe DC discharge. (22 kb)

  11. S.J. Rubio, A. Rodero, M.C. Quintero, R. Álvarez (Physics Department, University of Cordoba, Cordoba, Spain)
    Axial distribution of temperatures and species in the Axial Injection Torch during the trichloroethylene destruction. (21 kb)

  12. S. Dvinin, V. Mikheev, V. Sviridkina, V. Shibkov (Lomonosov Moscow State University, Physics department, Moscow, Russia)
    Numerical simulations of the microwave discharge on the dielectric antenna surface. (22 kb)

  13. V. Brovkin, Yu. Kolesnichenko, D. Khmara, I. Mashek, V. Lashkov (IHT RAS, Moscow, St.-Petersburg State University, St.-Petersburg)
    Laser-induced microwave discharge in air. (21 kb)

  14. E.M. Barkhudarov, N. Christofi*, I.A. Kossyi, M.A. Misakyan, J. Morton*, J. Sharp* and I.M. Taktakhisvili (General Physics Institute of the Russian Academy of Science, Moscow, Russia, *Napier University, Edinburgh, Scotland)
    Eradication of bacteria present in water and on surfaces using microwave UV lamps. (21 kb)

  15. S.M. Temchin, N.K. Berezhetskaya, V.A. Kop'ev, I.A. Kossyi, N.I. Malykh, M.A. Misakyan, V.P. Silakov, M.I. Taktakishvili, Young Dong Lee* (A.M. Prokhorov General Physics Institute of RAS, Moscow, Russia, *Samsung Advanced Institute of Technology, Korea)
    "Resonance" microwave source of volumetrical plasma. (20 kb)

  16. Yu.A. Lebedev, I.L. Epstein, A.V. Tatarinov (A.V. Topchiev Institute of Petrochemical Synthesis, Moscow, Russia)
    Electrode microwave discharge in nitrogen in DC field. (22 kb)

  17. N.K. Berezhetskaya, V.A. Kop'ev, I.A. Kossyi, V.P. Silakov, M.I. Taktakishvili, S.M. Temchin and Young Dong Lee* (A.M. Prokhorov Institute of General Physics, Russian Academy of Sciences, Moscow, Russia, *Samsung Electronics Co., LTD, Korea)
    Resonance microwave discharge and its plasma chemical applications. (21 kb)

  18. Ángel J. Chacón, Patricia Parra, Alejandro Rueda, German Contreras and Joaquin Mendoza (Grupo: Procesos electrodinámicos, University of Pamplona, Pamplona, Colombia)
    Simulation of microwave plasma torch with atmospheric pressure and the addition of a resonant magnetic field. (20 kb)

  19. V. Berestenko , I. Balichin, I. Domashnev, E. Kurkin V. Troitsky, V. Torbov, M. Nenashev (Institute of Problems of Chemical Physics RAS, Chernogolovka, Moscow region, 142432 Russia)
    Production of SiC in microwave discharge nitrogen plasma. (22 kb)

  20. E. Kurkin, I. Domashnev, V. Troitsky, I. Balichin, V. Berestenko (Institute of Problems of Chemical Physics RAS, Chernogolovka, Moscow region, 142432 Russia)
    Microwave plasma-chemical unit for producing nanopowders. (23 kb)

  21. R. Álvarez, A. Rodero, M.C. Quintero, L.L. Alves* (Departamento of Física, Universidade de Córdoba, Córdoba, Spain, *Centro de Física dos Plasmas, Instituto Superior Tecnico, Lisboa, Portugal)
    2D electromagnetic model of a microwave plasma torch reactor. (21 kb)