Плазменно-волновые процессы в магнитосферах, ионосферах и атмосферах Земли и планет
 
 
 
 
 
 
 
 
 
 

Предварительный список докладов (в алфавитном порядке по разделам)

1 Волновые явления в магнитосферах Земли и планет и динамика радиационных поясов и кольцевого тока

    Волновые явления в КНЧ-ОНЧ диапазоне

  1. Bespalov P. A. (IAP RAS, Nizhny Novgorod) Whistler emissions response to geomagnetic pulsations
  2. Demekhov A. G. (IAP RAS, Nizhny Novgorod) On the theory of VLF chorus emissions in the magnetosphere
  3. Hayosh M. (IAP, Prague, Czech Republic), Santolik O., Parrot M. Minimum size of the global source region of whistler-mode chorus
  4. Kozelov B.V. (PGI RAS, Apatity) “On-off” intermittency in the magnetospheric BWO generator of VLF chorus emissions
  5. Rycroft M. J. (Cranfield University, Cambridge, England) Interactions between whistler-mode signals and magnetospheric energetic electrons: an overview of experimental observations and theoretical interpretations
  6. Shklyar D. R. (IKI RAS, Moscow) Nonlinear growth of quasi-electrostatic cyclotron harmonics propagating transversely to the ambient magnetic field
  7. Titova E. E. (PGI RAS, Apatity),. Kozelov B. V, Demekhov A. G., Santolik O., Macusova E., Gurnett D. A., Pickett J. S. Verification of the backward wave oscillator model of VLF chorus generation using CLUSTER spacecraft observations

    Ваимодействие ионно-циклотронных волн и частиц

  8. Chibisov D.V., V.S. Mikhailenko (KNU, Kharkov, Ukraine) Ion cyclotron turbulence of a magnetosphere plasma and anisotropic heating of a heavy ion beam
  9. Lubchich A.A., Semenova N.V., Yahnin A.G. (PGI RAS, Apatity), Demekhov A.G. Modelling the generation of EMIC waves in the Earth’s magnetosphere
  10. Popova T.A., Yahnin A.G., Yahnina T.A. (PGI RAS, Apatity), Frey H.U. Solar wind dynamic pressure pulses, subauroral proton flashes, and Pc1 bursts.
  11. Yahnin A.G., Yahnina T.A. (PGI RAS, Apatity) Subauroral proton auroras as a tool for monitoring the ion-cyclotron interaction in the subauroral magnetosphere
  12. Yahnina T.A. Yahnin A.G. (PGI RAS, Apatity), Frey H.U., Manninen J. Relationship between Intervals of Pulsations of Diminishing Period (IPDP) observed on the ground, subauroral proton arcs registered by the IMAGE spacecraft, and energetic proton injections

    Гидромагнитные колебания и низкочастотная турбулентность

  13. Belakhovsky V.B. (PGI, Apatity), Pilipenko V.A. Generation of magnetic and particle Рс5 pulsations
  14. Chugunova O. (IPE RAS, Moscow), V. Pilipenko, G. Zastenker, N. Shevyrev The ion flux and magnetic field fluctuations in different regions of the magnetosheath
  15. Grigorenko Е.Е., Burinskaya Т.М., Zelenyi L.М. (IKI RAS, Moscow), Sauvaud J.-A. Low-frequency Alfven waves observed in plasma sheet boundary layer of the Earth’s magnetotail.
  16. Istomin Ya. N., O. A. Pokhotelov (IPE RAS, Moscow), Balikhin M. A. Mirror instability in space plasmas: solitons and cnoidal waves
  17. Kozak L.V. (Kyiv National University, Ukraine), Savin S.P. Plasma turbulence of Earth magnetosphere: statistical approach
  18. Kozyreva O. V., N.G. Kleimenova (IPE RAS, Moscow) Storm-time 2-7 mHz wave activity study based on the ULF-index
  19. Leonovich A.S., Kozlov D.A. (ISTP SB RAS, Irkutsk) Resonant MHD-oscillations in nonisotermal space plasmas
  20. Masur V.A., Leonovich A.S. (ISTP SB RAS, Irkutsk) The Alfven resonance in one-, two-, and three-dimensionally-inhomogeneous magnetospheric models
  21. Myagkova I.N. (SINP MSU, Moscow), Romanova N.V., Pilipenko V.A., Bogomolov А.V. The relationship of relativistic electron flux vаriation in the outer radiation belt at low and geostationary orbits with the ULF-index, solar wind parameters and geomagnetic indexes
  22. Romanova N., Pilipenko V. (IPE RAS, Moscow). Relationship between ULF activity and high-energy electron flux in the magnetosphere
  23. Токарев Ю.В. (НИРФИ, Н.Новгород) Турбулентность солнечного ветра вблизи магнитосферы Земли

    Волновая диагностика; спутниковые проекты; лабораторное моделирование

  24. Chugunov Yu.V. (IAP RAS, Nizhny Novgorod) Quasi-thermal noise antenna spectroscopy in space plasma
  25. Gushchin M.E., S.V. Korobkov, A.V. Kostrov, A.V. Strikovsky (IAP RAS, Nizhny Novgorod) Whistler waves in a large laboratory magnetoplasma
  26. James H.G. (Communications Research Centre, Ottawa, Canada) The spectrum of electron cyclotron harmonic waves emitted and detected by dipoles in the ionosphere
  27. James H.G. (Communications Research Centre Canada), Yau A.W. Particle and field measurements on the upcoming Enhanced Polar Outflow Probe (e-POP) satellite mission
  28. Klimov S. I., L. M. Zelenyi, D. I. Novikov (IKI RAS, Moscow), L. Bodnar, Cs. Ferencz, J. Lichtenberger, V. E. Korepanov, A. Marusenkov Electromagnetic parameters study for Space Weather Research (Micro-satellite "Chibis-M")
  29. Korobkov S.V., M.E. Gushchin, A.V. Kostrov, A.V. Strikovsky, A.G. Galka, D.A. Odzerikho (IAP RAS, Nizhny Novgorod) Quasistationary currents and magnetic disturbances generated by whistlers
  30. Shalashov A.G., Golubev S.V. (IAP RAS, Nizhny Novgorod) Cyclotron resonance maser driven by plasma magnetic compression  

    Модели магнитосферы; токовые слои

  31. Alexeev I.I., Belenkaya E.S. (SINP MSU, Moscow) Paraboloid Model of Mercury’s magnetosphere
  32. Belenkaya E. S.  (SINP MSU, Moscow), Alexeev I. I., S. W. H. Cowley, M. S. Blokhina, Kalegaev V. V. Saturn polar cap modeling
  33. Gubchenko V.M. (IAP RAS, Nizhny Novgorod) From 1D current sheet approach to the 3D magnetosphere/solar streamer modeling in large scale kinetics
  34. Zelenyi L.M., Malova H.V., Artemyev A.V., Petrukovich A.A. (IKI RAS, Moscow) Metastability of collisionless current sheets

2 Роль волновых процессов в магнитосферно-ионосферном взаимодействии

  1. Despirak I.V. (PGI RAS, Apatity), Lubchich A.A., Trakhtengerts V.Y., Excitation of Alfven vortices in the ionosphere by the magnetospheric convection
  2. Ermakova E.N. (NIRFI, Nizhny Novgorod) The influence of the ionospheric resonators on spectra formation of low frequency signals from natural and artificial sources in the frequency range 0.1-15 Hz
  3. Mikhailov Yu.M., V.D. Kuznetzov, Yu.Ja. Ruzhin, G.A. Mikhailova, L.P.Korsunova, V.S. Dokukin, V.V. Khegay, O.V. Kapustina (IZMIRAN, Troitsk), Sz. Ferencz, Ja.Lichtenberger, L. Bodnar, O.E. Ferencz, D. Hamar, P. Steinbach, V.E.Korepanov, Ground-based and Compass 2 satellite experiments
  4. Pokhotelov O. A. (IPE RAS, Moscow) Ionospheric Alfven resonator: Linear instability and nonlinear interactions
  5. Polyakov S.V., Rapoport V.O. (NIRFI, Nizhny Novgorod) Studies of low-frequency electromagnetic phenomena in the near-Earth space at the Radiophysical Research Institute
  6. Пчелкин В.В., Белоглазов М. И., Васильев А.Н, Воронин А. И. (ПГИ КНЦ РАН) Исследование всплесков Q-типа магнитных колебаний КНЧ диапазона по данным высокоширотной обсерватории Ловозеро.
  7. Zakharov V.I., Zienko A.S., Kunitsyn V.E. (MSU, Moscow) Changes in the spectra of wave structures in the ionosphere during geomagnetic storms.

3 Эффекты активного воздействия на ионосферу и магнитосферу

  1. Frolov V.L. (NIRFI, Nizhny Novgorod), Rapoport V.O., G.P. Komrakov, E.D. Tereshchenko, B.Z. Khudukon, R.Yu. Yurik, M. Parrot, J.L. Rauch, E.V. Mishin Satellite observations of ionospheric plasma perturbations caused by HF radio waves from the Sura heating facility.
  2. Grach S.M. (NIRFI, Nizhny Novgorod) Contribution of V. Yu. Trakhtengerts’s ideas to the construction of the physical model of processes occurring in the ionospheric F-region pumped by powerful radio radiation.
  3. Марков Г.А., Белов А.С. (ННГУ, Нижний Новгород) Лабораторное моделирование параметрических эффектов во внешней ионосфере, стимулированных радиоизлучением с Земли
  4. Mingalev O.V., G.I. Mingaleva, and V.S. Mingalev (PGI RAS, Apatity), Two-dimensional numerical modeling the dynamics of fine-scale irregularities in the F-region ionospheric plasma
  5. Mingaleva G.I., M.Yu. Andreev, Mingalev V.S. (PGI RAS, Apatity) A model study of the influence of artificial heating of the high-latitude ionosphere on the meridional oblique HF radio wave propagation in the daytime
  6. Mogilevsky M.M. (IKI RAS, Moscow) Time-scale of the artificial ionospheric particle injection in the magnetosphere
  7. Parrot M. (LPC2E/CNRS, Orleans, France): Man-made waves observed by DEMETER and their effects on the ionosphere
  8. Rapoport V.O. (NIRFI, Nizhny Novgorod), V.L.Frolov, S.V.Polyakov, V.A.Zinichev, G.P.Komrakov, N.A.Ryzhov, G.A.Markov, A.S.Belov, M.Parrot, J.-L.Rauch, Structure of VLF electromagnetic field in ionosphere disturbed by HF heating facility SURA
  9. Rauch J.L. (LPC2E/CNRS and Universite d’Orleans, France), J.G. Trotignon, T.M. Burinskaya, M.M. Mogilevsky, F. Lemdani-Mazouz, Dependence of the electron gyroharmonic resonance amplitude in relation to the plasma frequency in the WHISPER/CLUSTER active mode
  10. Starodubtsev M., Nazarov V., Kostrov A. (IAP RAS, Nizhny Novgorod) Laboratory studies of nonlinear interaction of quasi-electrostatic waves with a magnetoplasma.
  11. Terina G.I. (NIRFI, Nizhny Novgorod) About scattering of radio pulses by artificially disturbed ionospheric plasma

4 Коллективные эффекты в атмосферном электричестве

  1. Davydenko S., Mareev E., Sergeev A. (IAP RAS, Nizhny Novgorod) Modeling atmospheric electromagnetic fields following a lightning discharge
  2. Erokhin N.S., N.N.Zolnikova, L.A.Mikhailovskaya (IKI RAS, Moscow) Structure functions of electric fluctuations field in the presence of coherent structures
  3. Feigin A.M., Kulikov M.Yu. (IAP RAS, Nizhny Novgorod) Photochemical waves and structures in the mesosphere
  4. Grach V.S. (IAP RAS, Nizhny Novgorod) Dissipative instabilities in mesospheric aerosol plasma
  5. Iudin D.I., Mareev E.A., Trakhtengerts V.Y. (IAP RAS, Nizhny Novgorod), Hayakawa M.  Percolation model of mesospheric discharges
  6. Karashtin A. N., Yu. V. Shlyugaev, O. S. Karashtina, G. P. Komrakov, A. A. Lisov, E. V. Pichuzhkin (NIRFI, Nizhny Novgorod) Spectral and pulse characteristics of lightning discharge radio emission
  7. Kleimenova N.G., O.V. Kozyreva (IKI RAS, Moscow), M. Kubicki, S. Michnowski Day-time variations in the mid-latitude atmospheric electric field caused by magnetic storms
  8. V.A.Klimenko, E.A.Mareev, Shlyugaev Yu.V. (IAP RAS, Nizhny Novgorod) Search for experimental evidence of collective effects in thunderstorm clouds
  9. Muldrew D. B. (discussion report; read by H. G. James, Communications Research Centre, Ottawa, Canada) Solid charged-core model of ball lightning
  10. Mullayarov V.A., Kozlov V.I., Toropov A.A. (Yu.G. Shafer Institute of Cosmophysical Research and Aeronomy, SB RAS, Yakutsk) Modulation effects in ELF emission connected with lightning discharges into the ionosphere
  11. Sorokin A.E. (IAP RAS, Nizhny Novgorod, Russia ) To the ion-particle interactions in weakly ionized gas: collective effects
  12. Surkov V. V., Goncharov S. V. (MEPI, Moscow), Yu Matsudo, and M. Hayakawa, Sprite parameters finding based on observation of sprite-producing lightning power spectra