IWPCTM9 Papers
Notes:
No |
Authors |
Title |
Links |
Folder |
9:001 |
Stochastic model of turbulent mixing by the Rayleigh-Taylor and Richtmyer-Meshkov instabilities
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9:002 |
Nonlinear evolution of the Rayleigh-Taylor and Richtmyer- Meshkov unstable fluid interface
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9:003 |
Florian Abéguilé, Carine Boudesocque-Dubois, Jean-Marie Clarisse & Serge Gauthier |
Linear perturbation amplification in self-similar ablation flows of ICF
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9:004 |
Yu. Alekhanov, A. Levushov, A. Logvinov, S. Lomtev & E. Meshkov |
RT mixing of a thin liquid layer on the rigid wall moving with deceleration |
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9:005 |
Second order closure turbulence model (1D code MUZA), empiric constants fitting |
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9:006 |
N.N. Anuchina, N.S. Es’kov, V.A. Gordeyhuck, O.M. Kozyrev & V.I. Volkov |
Simulation by the Mah-3 code of the interfaces using an mixed cells and markers |
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9 :007 |
N.N. Anuchina , V.I. Volkov , N.S. Es’kov, O.S. Ilyutina & O.M. Kozyrev |
Numerical simulation of Rayleigh-Taylor instability evolution in cylindrical and spherical geometries for the cases of two and three spatial variables |
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9:008 |
Numerical simulation of Rayleigh-Taylor instability in a spherically stagnating system using the MAH codes |
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9:009 |
A new look into the self-similar RT ab discrepancy |
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9:010 |
A.J. Aspden & N. Nikiforakis |
Monotone integrated large eddy simulation of open shear flows |
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9:011 |
Sergey Baban & Alexander Kozlovskih |
Investigation of gravitational turbulent mixing at sign-variable acceleration |
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9:012 |
O.G. Bakunin. |
Percolation effects and coherent structures in turbulent flows. |
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9:013 |
Convergent shock tube: new design, first results |
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9:014 |
A. S. Baryshnikov, I. V. Basargin, M. V. Chistyakova & M. A. Rydalevskaya |
Shock wave structure reconstruction in reacting gases |
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9:015 |
Application of Ronchi method for visualization of a turbulent mixing zone in shock tube experiments |
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9:016 |
M. Bliznetsov, V. Dudin, O. Krivonos, A. Levushov, E.E. Meshkov & V. Fadeev |
Development of 2-d perturbations of gas - gas interface in experiments on the shock tube with the gem-driver. |
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9:017 |
M.B. Bliznetsov, N.V. Nevmerhzitsky, E.A. Sotskov, L.V. Tochilina & E.D. Sen’kovsky |
Studies of Richtmyer-Meshkov instability growth in gases at flow Mach numbers from 2 to 9 |
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9:018 |
B.E. Blue, A.R. Miles, J.M. Foster, T.S. Perry, P.A. Keiter, P.A. Rosen, R.F. Coker & B. H. Wilde |
Evolution of the three-dimensional Rayleigh-Taylor instability |
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9:019 |
Scintillations and interstellar Levy flights |
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9:020 |
Carine Boudesocque-Dubois, Jean-Marie Clarisse & Jean-Luc Willien |
A linear perturbation computation method for hydrodynamic stability studies of complex flows: application to an ICF target implosion |
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9:021 |
Methodology and diagnostics in large Rayleigh-Taylor instability simulations |
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9:022 |
Using the Green's Function Method to Calculate Pressure Fluctuations in Compressible Multifluids |
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9:023 |
Baolian Cheng, Erwin George, James Glimm, Hyeonseong Jin, Xiaolin Li, David Sharp, Zhiliang Xu & Yongmin Zhang |
Recent developments in theory and simulation of turbulent mixing |
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9:024 |
The Mixing Transition in Rayleigh-Taylor Instability |
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9:025 |
Pseudo-spectral Navier-Stokes simulations of compressible Rayleigh-Taylor instability |
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9:026 |
Vladimir Demchenko |
Colliding surface instability for a high velocity impact |
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9:027 |
Bubble motion in inclined pipes |
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9:028 |
Guy Dimonte, Praveen Ramaprabhu & Malcolm Andrews |
Dependence of self-similar Rayleigh-Taylor growth on initial conditions |
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9:029 |
R.P. Drake, D.R. Leibrandt, E.C. Harding, C.C. Kuranz, M. Blackburn, H.F. Robey, B.A. Remington, M.J. Edwards, A.R. Miles, T.S. Perry, R.J. Wallace, H. Louis, J.P. Knauer & D. Arnett |
Nonlinear mixing behavior of the three-dimensional Rayleigh-Taylor instability at a decelerating interface |
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9:030 |
J.R. Fincke, N.E. Lanier, S.H. Batha, J.M. Taccetti, R.M. Hueckstaedt, G.R. Magelssen, N.D. Delameter, M.M. Balkey, S.D. Rothman, K.M. Parker & C.J. Horsfield |
Postponement of saturation of the Richtmyer-Meshkov instability by convergence |
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9:031 |
German Garzon, Jose M. Redondo, Vladislav Rozanov & Sergey Gushkov |
Numerical LES models of Richtmeyer-Meshkov and Rayleigh-Taylor instabilities |
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9:032 |
Jérôme Giordano, Yves Burtschell, Guillaume Layes, Georges Jourdan & Lazhar Houas |
On the mutual penetrations of two gases submitted to the Richtmyer-Meshkov instability: Part 2 - numerical simulations |
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9:033 |
Jérôme Giordano, Yves Burtschell, Guillaume Layes, Georges Jourdan & Lazhar Houas |
Shock Bubble Interaction - numerical simulations |
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9:034 |
Pilar L. Gonzalez-Nieto, Carlos Yague, Jose L. Cano & Jose M. Redondo |
The role of initial conditions on mixing efficiency for convective flows |
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9:035 |
A.V. Gorodnichev, G.V. Dolgoleva, V.A. Zhmailo, E.A. Novikova & V.P. Statsenko |
Numerical simulations of pulsar wind-sn shell interaction |
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9:036 |
M.J. Graham Lindquist, K.S. Budil, J. Grove & B.A. Remington |
The Richtmyer-Meshkov instability in cylindrical geometry: experiments and simulation* |
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9:037 |
The effect of initial conditions on late time asymptotics and mixing for multimode Richtmyer-Meshov Instability |
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9:038 |
Brian Grieves |
Implementation of a turbulent mix model in a 2D ALE code |
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9:039 |
Fernando F. Grinstein |
On implicit large eddy simulation for turbulent flows |
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9:040 |
Numerical experiments using high-resolution methods in compressible and turbulent flows |
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9:041 |
Interacting thermals |
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9:042 |
D.J. Hill, R.Deiterding & D.I. Pullin |
Large-eddy simulation of Richtmyer-Meshkov instability with re-shock |
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9:043 |
Shock tube Richtmyer-Meshkov experiments: inverse chevron and half height |
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9:044 |
Spectral characteristics of turbulence driven by Rayleigh-Taylor instability |
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9:045 |
Study of converging reflected shock waves and Richtmyer-Meshkov instability in spherical geometry |
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9:046 |
Lazhar Houas, Georges Jourdan, Vincent Filpa, Guillaume Layes, Jérôme Giordano, Clément Amagat & Yves Burtschell |
On the mutual penetrations of two gases submitted to the Richtmyer-Meshkov instability: Part 1 - experiments |
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9:047 |
R.M. Hueckstaedt, S.H. Batha, M.M. Balkey, N.D. Delamater, J.R. Fincke, R.L. Holmes, N.E.Lanier, G.R. Magelssen, J.M. Taccetti, J.M. Scott, C.J. Horsfield, K.M. Parker & S.D. Rothman |
Three-dimensional simulations of Richtmyer-Meshkov experiments |
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9:048 |
Exact expansion law for Richtmyer–Meshkov turbulent mixing zone |
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9:049 |
J. Jacobs, P. Chapman, J. Wilkinson, C. Niederhaus & J. Waddell |
Experiments on the three-dimensional incompressible Richtmyer-Meshkov instability |
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9:050 |
Daniel E. Klem |
Interfacial pressures and shocks in a multiphase flow model |
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9:051 |
About the opportunity of use of the color photo for visualization of the zone of turbulent mixing in experiments on the shock tube with the GEM-driver |
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9:052 |
Alexander Kozlovskih, Vadim Anisimov & Sergey Baban |
The experiment result analysis of turbulent mixing at moderate Reynolds numbers in a gravity field of the Earth. |
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9:053 |
Recovery of Rayleigh-Taylor mixing from unstably stratified flow past a cylinder |
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9:054 |
Wayne Kraft, Arindam Banerjee, Praveen Ramaprabhu & Malcolm Andrews |
Visualization of Rayleigh-Taylor instability |
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9:055 |
Experimental study of single-mode Richtmyer-Meshkov instability for 2D and 3D perturbations |
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9:056 |
Yu.A. Kucherenko, S.I. Balabin, R.I. Ardashova, O.E. Kozelkov, A.V. Dulov & I.A. Romanov |
On possibility of experimental determination of integral characteristics of molecular component of mixing by means of X-ray technique |
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9:057 |
Yu.A. Kucherenko, S.I. Balabin, R.I. Ardashova, O.E. Kozelkov, A.V. Dulov & I.A. Romanov |
Experimental study into the initial perturbation spectrum influence upon the delay of the turbulent mixing evolution in systems with transitional layers |
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9:058 |
Yu.A. Kucherenko, A.P. Pylaev, V.D. Murzakov, A.V. Belomestnih, V.N. Popov & A.A. Tyaktev |
On possibility of experimental determination of molecular component of non-stationary turbulent mixing |
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9:059 |
Yu.A. Kucherenko, A.P. Pylaev, V.D. Murzakov, A.V. Belomestnih, V.N. Popov & A.A. Tyaktev |
Experimental study into the Rayleigh-Taylor instability evolution in a continuous distribution density layer |
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9:060 |
Yu.A. Kucherenko, O.E. Shestachenko, Yu.A. Piskunov, E.V. Sviridov, V.M. Medvedev & A.I. Baishev |
Experimental study into the turbulent mixing transition to a self-similar regime at constant acceleration of the interface of gases |
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9:061 |
Sanjay Kumar, Peter Vorobieff, Greg Orlicz, Christopher Tomkins, Cherie Goodenough & Robert Benjamin |
An experimental study of the interaction of three Richtmyer-Meshkov-unstable gas cylinders |
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9:062 |
G.A. Kyrala, D.A. Haynes, M.A. Gunderson, D.C. Wilson, C. Christensen, F.J. Marshall, V.Yu. Glebov, C. Stoeckl, C.K. Li, F.H. Séguin, R.D. Petrasso & J. Frenje , S.P. Regan, V.A. Smalyuk & J.R. Rygg |
Time dependent mix in a converging burning capsule |
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9:063 |
Guillaume Layes, Georges Jourdan, Lazhar Houas, Denis Souffland & François Renaud |
Experimental investigation on the behaviour of a shock accelerated spherical gas inhomogeneity |
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9:064 |
Laser shock tube. research & development. |
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9:065 |
Radiatively induced Richtmyer-Meshkov instability: Numerical simulation and phenomenological analysis |
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9:066 |
E. Leinov, A. Formaozo, O. Sadot, E. Sarid, A. Yosef-Hai, D. Cartoon, Y. Elbaz, A.L. Levin, D. Shvarts & G. Den-Dor |
Investigation of the hydrodynamic instability induced by multi-acceleration of a contact surface between two fluids |
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9:067 |
The interaction of two shocked bubbles |
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9:068 |
Volume fraction profiles of transport structures in Rayleigh-Taylor turbulent mixing zone: evidence of enhanced diffusion processes |
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9:069 |
Derivation of a minimal 2-structure, 2-fluid and 2-turbulence (2SFK) model for gravitationally induced turbulent mixing layers. |
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9:070 |
1D numerical simulations of various self similar accelerated turbulent mixing layers using the 2SFK model. |
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9:071 |
Large eddy simulations of miscible Rayleigh-Taylor instability |
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9:072 |
Compressibility effects on Rayleigh-Taylor turbulence |
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9:073 |
E. Meshkov |
Hydrodynamic instabilities and turbulent mixing in some real-world problem |
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9:074 |
E.E. Meshkov, N.V. Nevmerzhitskii, V.G. Rogachev & Yu.V. Yanilkin |
Potential role of scaling factor in turbulent mixing problem |
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9:075 |
K.O. Mikaelian, H.-S. Park, H.F. Robey, R.E. Tipton, D.P. Rowley, R.J. Wallace, C.K. Li, R.D. Petrasso, J.A. Frenje, F.H. Seguin, R. Rygg, V.Yu. Glebov & F.J. Marshall |
2D CALE simulations of directly driven shaped implosions |
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9:076 |
Effect of initial conditions on compressible mixing for multimode systems driven by a strong blast wave |
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9:077 |
Jose Milovich, Peter Amendt, Michael Marinak, Harry Robey & Robert Tipton |
Study of short-wavelength perturbation growth on a NIF double-shell ignition target design |
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9:078 |
M. Murakami |
Convective instability of self-similar gravitational collapse with radiative transfer |
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9:079 |
V.E. Neuvazhayev |
The analysis of experiments and calculations for determination of intensity of turbulent mixing on the basis of turbulent mixing model of diffusion type |
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9:080 |
N.V.Nevmerzhitsky, E.A.Sotskov & M.V.Bliznetsov |
Development of turbulent mixing at a gas-liquid interface at accelerations from 102 g0 to 105 g0 and pressures from 1 to 400 atm |
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9:081 |
Nikos Nikiforakis & Kevin R. Bates |
Emergence of detonation in the flowfield induced by Richtmyer-Meshkov instability |
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9:082 |
Katsunobu Nishihara, Chihiro Matsuoka, Gustavo J. Wouchuk, Snezhana I. Abarzhi & Vasilii V. Zhakhovskii |
Linear and nonlinear evolution of Richtmyer-Meshkov instability |
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9:083 |
Anton Nuzhny, Vladislav Rozanov, Roman Stepanov & Alexander Shumsky |
The multiparametric statistical analysis of hydrodynamic instabilities, based on wavelet preprocessing and neuronetwork classification |
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9:084 |
Kenneth Parker, C.J. Horsfield, S.D. Rothman, M.M. Balkey, S.H. Batha, N.D. Delamater, J.R. Fincke, R. Hueckstaedt, N.E. Lanier, G.R. Magelssen & M. Taccetti |
Investigation of mix after reshock in a cylindrical geometry. |
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9:085 |
Numerical simulation of influence of turbulent mixing zone on local perturbation growth under Rayleigh-Taylor instability conditions |
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9:086 |
Praveen Ramaprabhu & Malcolm J. Andrews |
An overview of Rayleigh-Taylor experiments at Texas A&M University |
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9:087 |
D. Ranjan, J. Niederhaus, J. Oakley, M. Anderson, J. Greenough, R. Bonazza & L. Smith |
Experimental and computational investigations of shock-accelerated gas bubbles |
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9:088 |
Multifractal structure and intermittent mixing in Rayleigh-Taylor driven fronts |
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9:089 |
MEDIC-2F: a one-dimensional diffusive mixing model. Application to LMJ target simulations. |
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9:090 |
The Relative Effectiveness High-Resolution Methods in Simulating Compressible Mixing |
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9:091 |
H.F. Robey |
The effects of viscosity and mass diffusion in hydrodynamically unstable plasma flows |
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9:092 |
Vladislav Rozanov, Roman Stepanov, Mikhail Anuchin, Yury Yanilkin, Nadezhda Proncheva & Nikolai Zmitrenko |
Mixing zone growth rate in a direct numerical simulation and wavelet analysis of Rayleigh-Taylor multimode instability development |
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9:093 |
Investigation of the large-scale and statistical properties of Richtmyer-Meshkov instability-induced mixing |
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9:094 |
Experimentally-based initialization of direct numerical simulations of miscible, Rayleigh-Taylor instability-induced mixing |
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9:095 |
Laurent Schwaederlé, Jean-François Haas, Philippe Montlaurent, Claude Rayer & Guillaume Seguin |
Measurements of turbulent mixing within an air/SF6 shocked and reshocked interface. |
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9:096 |
O. Sin’kova, V. Sofronov, V. Statsenko, Yu. Yanilkin & V. Zhmaylo |
Numerical investigation of gravitational turbulent mixing with alternating acceleration |
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9:097 |
O.G. Sin’kova, V.P. Statsenko, Yu.V. Yanilkin & A.R. Guzhova |
Numerical simulation of an experiment on turbulent mixing after multiple shock wave passages across interface |
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9:098 |
O.G. Sin’kova, V.P. Statsenko, Yu.V. Yanilkin & V.A. Zhmailo |
Direct 3d numerical simulation of shear turbulent mixing |
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9:099 |
O.G. Sin’kova, V.P. Statsenko, Yu.V. Yanilkin & V.A. Zhmailo |
Direct numerical simulation of shear-gravitational turbulent mixing |
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9:100 |
Edward Son |
Turbulent mixing of multiphase flows in a gravitational field |
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9:101 |
E.A. Sotskov, N.V. Nevmerhzitsky, M.V. Bliznetsov & E.D. Sen’kovsky |
Study of growth of local perturbation and its interaction with zone of turbulent mixing at gas-jelly interface |
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9:102 |
Direct 3D numerical simulation of gravitational turbulent mixing with regard to molecular viscosity |
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9:103 |
S. Yu. Gus’kov, A. Caruso, V. B. Rozanov, R.V. Stepanov, C. Strangio & N.V. Zmitrenko |
The problem of Kelvin-Helmholtz instability on contact boundary of finite width and ICF applications |
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9:104 |
Statistical properties of 2D RT-induced mixing at nonlinear and transient stages for 6-modes ensemble |
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9:105 |
V.F. Tishkin, M.Ye. Ladonkoina & N.V. Zmitrenko |
Numerical simulation of turbulent stage of Richtmyer-Meshkov instability with multi-shock interaction |
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9:106 |
Chris Tomkins, Sanjay Kumar, Peter Vorobieff, Mark Marr-Lyon, Cherie Goodenough & Robert Benjamin |
Visualizing the onset and growth of secondary instabilities in Richtmyer–Meshkov-unstable flows |
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9:107 |
Reduction of the vertical transport in stably stratified turbulent shear flows |
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9:108 |
Marc Vandenboomgaerde & Olivier Lafitte |
Analytic model for the single-mode Richtmyer-Meshkov instability from the linear to the nonlinear regime. |
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9:109 |
A.V. Vasilenko |
Experimental study of initial stage of instability development on gases interface under influence of shock wave front acceleration |
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9:110 |
Erik L. Vold |
Compressible aspects in simulations of multi-mode Rayleigh-Taylor mixing |
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9:111 |
Erik L. Vold |
Rayleigh-Taylor and Richtmyer-Meshkov aspects of interface deceleration mixing |
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9:112 |
Stephen Weber, Brent Blue, S. Gail Glendinning, Harry Robey, Pete Stry & D. Tod Woods |
A NIF 3-D high Mach number feature experiment |
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9:113 |
Greg Weirs, Tomek Plewa, Todd Dupont, Vikram Dwarkadas, Chris Tomkins & Mark Marr-Lyon |
Validating the FLASH code: two- and three-dimensional simulations of shock-cylinder interaction |
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9:114 |
Suppression of the Richtmyer-Meshkov instability in the presence of a magnetic field |
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9:115 |
Jeremy White, Chaine Selig, Jason Oakley, Mark Anderson & Riccardo Bonazza |
The Rayleigh-Taylor instability at a water/magnetorheological fluid interface |
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9:116 |
B.H. Wilde, P.A. Rosen, J.M. Foster, T.S. Perry, R.F. Coker, P.A. Keiter, G.R. Bennett, D.B. Sinars, M.J. Steinkamp, B.E. Blue, H.F. Robey, A.M. Khokhlov, M.L. Gittings, J.P. Knauer, R.P. Drake, R.B. Campbell, A. Frank & T.A. Mehlhorn |
Turbulent jets? |
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9:117 |
Shock propagation through multiphase media |
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9:118 |
3D modelling of cylindrical implosion experiments |
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9:119 |
D.C. Wilson, F.J. Marshall, P.W. McKenty, V.Yu. Glebov, C. Stoeckl, C.W. Cranfill, G.D. Pollak, W.J. Powers C.K. Li, F.H. Séguin, D.G. Hicks & R.D. Petrasso |
Mixing in thick-walled and pulse-shaped directly driven ICF capsule implosions. |
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9:120 |
Spontaneous acoustic emission in a non ideal gas in the presence of a piston |
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9:121 |
Freeze-out of the Richtmyer-Meshkov instability |
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9:122 |
David L Youngs |
Effect of initial conditions on self-similar turbulent mixing |
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9:123 |
Self-similarity of flows induced by instabilities |
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9:124 |
Nikolai Zmitrenko, Vladimir Tishkin, Vladislav Rozanov, Roman Stepanov, Mikhail Anuchin & Yury Yanilkin |
General characteristics of a mixing zone development in a direct simulations of hydrodynamics instabilities with a random phase regular multimode perturbations |