IWPCTM12 CONTACTS

Prof. Vladimir F. Tishkin
Institute for Mathematical Modeling Russian Academy of Sciences
4A Miusskaya square, office 212
Moscow, 125047, Russia
(+7 499) 972-1791
 
Dr. Marina E. Ladonkina
4A Miusskaya square, office 207
Moscow, 125047, Russia
(+7 499) 791-2822
 
Dr. Nadezhda G. Proncheva
4A Miusskaya square, office 201
Moscow, 125047, Russia
(+7 495) 250-7887
 
Submission of materials:
iwpctm12@imamod.ru
 

Posters

1. Jinhong Liu, Duo-wang Tan, Wenbin Huang, and Li-yong Zou
Experiments on the growth rate of single and two modes RM instability by re-shock
2. Huang Wen-Bin, Zou Li-Yong, Liu Jin-Hong, Tan Duo-Wang, and Zhang Guang-Sheng
Effects of Initial Perturbations on Rayleigh-Taylor Instability Growth at Gas-Liquid Interface
3. Jing-song Bai, Jin-hong Liu, Tao Wang, Li-yong Zou, Ping Li, Duo-wang Tan, and Cang-li Liu
Investigation of the Richtmyer-Meshkov Instability with Double Perturbation Interface in Non-uniform Flows
4. David L. Youngs
The Density Ratio Dependence of Self-similar Rayleigh-Taylor Mixing
5. Svetlana V. Fortova
Numerical investigation of initial stage of the vortex cascades
6. Igor N. Kosarev
Interaction of Picosecond Laser Pulses with a Thin Target
7. Konstantin Lutskiy, Nikolay Kalitkin, and Ivan Kozlitin
Consistency of quantum-statistical and ionization equilibrium models
8. Andrey A. Kuleshov, Elena E. Myshetskaya, and Sergey E. Yakush
Two-dimensional Mathematical Model for Forest Fire Spread
9. Ju.B. Bazarov, Ju.K. Barsukov, A.B. Georgievskaya, G.B. Krasovsky, Å.Å. Meshkov, and A.Ju. Syundyukov
About possibility of the research of the mechanisms of formation of a cloud of the microparticles at a shock wave exit on a free surface of a layer of the condensed environment in laboratory experiments
10. Tao Wang, Jin-song Bai, Yang Jiang, Ping Li, and Min Zhong
Two and three dimensional numerical simulations of the single-mode Richtmyer-Meshkov instability
11. Àlmaz Gaisin, Edward Son, Azat Gaisin, Rafik Basyrov, and Fivzat Gaisin
Emergence of Plasma-Electrolyte Vortices on the Boundary between Electrolyte Jet and a Solid Body at Low Pressures
12. Andrew G. W. Lawrie, and Stuart B. Dalziel
Energy transport induced by Rayleigh-Taylor mixing
13. N.V. Nevmerzhitsky, A.L. Mikhailov, V.A. Raevsky, V.S. Sasik, Yu.M. Makarov, E.A. Sotskov, A.V. Rudnev, V.V. Burtsev, S.A. Lobastov, A.A. Nikulin, E.D. Senkovsky, S.A. Abakumov, O.L. Krivonos, and A.A. Polovnikov
Microscopic Electron-OpticalL Recording of Particle Ejecta from Free Surface of Shock-Loaded Lead
14. N.V. Nevmerzhitsky, A.N. Razin, E.D. Senkovsky, E.A. Sotskov, A.A. Nikulin, O.L. Krivonos, A.A. Polovnikov, and S.V. Frolov
Research of turbulent mixing in three-layer gas systems
15. A.A. Tyaktev, A.V. Pavlenko, S.I. Balabin, A.V. Belomestnyckh, V.N. Popov, O.E. Kozelkov, A.V. Dulov, I.A. Romanov, and I.L. Bugaenko
Experimental investigation of matter velocity distribution in the gases mixing zone induced by the Richtmyer-Meshkov and Rayleigh-Taylor instability
16. V.A. Raevsky, and A.B. Georgievskaya
Numerical-theoretical research of liquid dispersion under SW effect
17. N.V. Nevmerzhitsky, E.A. Sotskov, E.D. Senkovsky, E. Lyapedi, A.A. Nikulin, O.L. Krivonos, and S.A. Abakumov
Dispersion of liquid drop under effect of air shock wave with intensity from 0.2 atm up to 42 atm
18. O.E Shestachenko, A.V. Pavlenko, Yu.A. Piskunov, E.V. Sviridov, A.M. Andreev, A.I. Baishev, and V.M. Medvedev
Experimental study of stationary shock-wave interaction with the developed turbulent mixing zone
19. A.A. Tyaktev, A.V. Pavlenko, D.V. Neuvazhayev, A.V. Belomestnyckh, V.N. Popov, and I.L. Bugaenko
Measurement of velocity distribution in the gas mixing zone induced by the Earth gravitational field