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 |