IWPCTM8 Papers
Notes:
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No. |
Authors |
Title |
Links |
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S.I. Abarzhi |
Nonlinear evolution of unstable fluid interface |
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S.I. Abarzhi |
Turbulent mixing in RTi as order-disorder process |
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Nonlinear asymptotic solutions to RT and RM problems for fluids with close densities |
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B.B. Afeyan, P. Ramaprabhu & M.J. Andrews |
Pattern detection, compression and denoising of RT mix data using discrete wavelet transform |
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Modes’ interaction on nonlinear stage of Richtmyer-Meshkov instability evolution |
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M.G. Anuchin, V.E. Neuvazhayev & I.E. Parshukov |
Application of kε-model for the description of an atmospheric surface layer |
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Computational modeling of low-Mach-number high-Atwood-number turbulent mixing |
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H. Azechi, T. Sakaiya, M. Nakai, H. Shiraga, K. Shigemori, N. Miyanaga, M. Nishikino, S. Fujioka, Y. Tamari, H. Nagatomo, A. Sunahara & H. Takabe |
Ablative Rayleigh-Taylor instability at short wavelengths |
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A new turbulent two-fluid RANS model for KH, RT & RM mixing layers |
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S.M. Bakhrakh, N.A. Volodina, P.N. Nizovtsev, V.F. Spiridonov & E.V. Shuvalova |
Numerical simulation of initial perturbation growth in oblique impact of metal plates |
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C.W. Barnes, S.H. Batha, A.M. Dunne, N.E. Lanier, G.R. Magelssen, T.J. Murphy, KW. Parker, S. Rothman, J.M. Scott & D.L. Youngs |
Improvements to convergent cylindrical plasma mix experiments using laser direct drive |
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S.H. Batha, K.W. Parker, C.W. Barnes, A.M. Dunne, N.E. Lanier, G.R. Magelssen, T.J. Murphy, S. Rothman J.M. Scott & D.L. Youngs |
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M. Bliznetsov, V. Dudin, S. Gerasimov, L. Houas, G. Jourdan & A. Logvinov |
Development of a method for studying the interaction between shock wave and a flame front |
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M. Bliznetsov, E. Meshkov, N. Nevmerzhitsky & A. Nikulin |
The influence of scaling for periodical perturbations on development of turbulent mixing on a gas-liquid interface |
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R.E. Breidenthal |
Super-exponential Rayleigh-Taylor flow |
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M. Brouillette & C. Hébert |
Compressible vortex rings |
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Theoretical methods for determination of mix |
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Modeling radiation effects in mixing layers |
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J.D. Colvin, M. Legrand, B.A. Remington, G. Schurtz & S.V. Weber |
A model for instability growth in accelerated solid metals |
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Transition stages of Rayleigh-Taylor instability between miscible fluids |
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Spectral and high-order compact methods for shock-induced mixing |
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S.B. Dalziel |
Toy models for the growth rate of Rayleigh-Taylor instability |
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R. Darlington & K. Budil |
Numerical simulation of mode coupling in laser-driven Rayleigh-Taylor instability experiments |
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A.M. Dimits |
Mixing due to the Rayleigh-Taylor instability |
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G. Dimonte, A. Dimits, S. Weber, D.L. Youngs, A. C. Calder, B. Fryxell, J. Biello, L. Dursi, P. MacNiece, K. Olson, P. Ricker, R. Rosner, F. Timmes, H. Tufo, Y.-N. Young, M. Zingale, M. J. Andrews, P. Ramaprabhu, S. Wunsch, C. Garasi & A. Robinson |
A comparison of high-resolution 3D numerical simulations of turbulent Rayleigh-Taylor (RT) instability: alpha-group collaboration |
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High order numerical methods for the 2D Richtmyer-Meshkov instability |
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R.P. Drake |
Design of flyer-plate-driven compressible turbulent mix experiments |
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R.P. Drake, P. Keiter, K.E. Korreck, K. Dannenberg, H.F. Robey, T. Perry, J.O. Kane, B.A. Remington, R.J. Wallace, O.A. Hurricane, D.D. Ryutov, J. Knauer, R. Teyssier, A. Calder, R. Rosner, B. Fryxell, D. Arnett, Y. Zhang, J. Glimm, N. Turner, J. Stone, R. McCray & J. Grove |
Compressible hydrodynamics on the omega laser, motivated by astrophysics |
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O.B. Drennov, A.L. Mikhaylov, P.N. Nizovtsev & V.A. Raevskii |
Growth of perturbations on metals interface at oblique collision with supersonic velocity of contact point motion |
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S. Dutta, E. George, J. Glimm, J. Grove, X. Li, A. Marchese, D.H. Sharp, Z. Xu & Y. Zhang |
Numerical methods for determination of mix |
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Rayleigh-Taylor instability in compressible fluids |
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A general buoyancy-drag model for the evolution of the Rayleigh-Taylor and Richtmyer-Meshkov instabilities |
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An assessment of multi-velocity versus single velocity in a multi-component model of turbulent mixing |
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R. Epstein, J.A. Delettrez, V.Yu. Glebov, V.N. Goncharov, P.W. McKenty, P.B. Radha, S. Skupsky, V.A. Smalyuk & C. Stoeckl |
One-dimensional simulation of the effects of unstable mix on neutron and charged-particle yield from laser-driven implosion experiments |
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3D computation for surface perturbation evolution of plasma cloud during its expansion in magnetic field |
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S.G. Glendinning, D.G. Braun, M.J. Edwards, W.W. Hsing, B.F. Lasinski, H. Louis, J. Moreno, T.A. Peyser, B.A. Remington, H.F. Robey, E.J. Turano, C.P. Verdon & Y. Zhou |
An experimental study of the effect of shock proximity on the Richtmyer-Meshkov instability at high Mach number |
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Code to code comparisons for the problem of shock acceleration of diffuse dense gaseous cylinder |
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B. Grieves |
Implementation of a turbulent mix model in a 2D ALE code |
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J.W. Grove |
Error estimation for strong shock hydrodynamics |
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A semi-empirical model for turbulent diffusion of magnetic field to accelerated plasma |
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Localization and spreading of interfaces (contact discontinuities) in ppm and weno simulations of the inviscid compressible euler equations |
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S.W. Haan, T. Dittrich, S. Hatchett, D. Hinkel, M. Marinak, D. Munro, O. Jones, S. Pollaine & L. Suter |
Update on instability modeling for the NIF ignition targets |
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A review on RT and RM instability and TM experiments |
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Mix experiments using a two dimensional convergent shock tube |
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Rayleigh-Taylor instability at a tilted interface in incompressible laboratory experiments and compressible numerical simulations |
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Study of diverging and converging spherical shock waves induced by micro explosives and their interaction with product gases |
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L. Houas, G. Jourdan, E.E. Meshkov & L. Schwaederlé |
From linear to turbulent stages of the Richtmyer-Meshkov instability development in a large cross section shock tube |
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Non-linear stages for the RT and RM instabilities |
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PLIF flow visualization of a shock-accelerated air/sf6 interface |
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D.H. Kalantar, J. Belak, J.D. Colvin, M. Kumar, K.T. Lorenz, K.O. Mikaelian, S. Pollaine, B.A. Remington, S.V. Weber, L.G. Wiley, A.M. Wiley, A. Loveridge-Smith, J.S. Wark & M.A. Myers |
Laser-based high pressure, high strain-rate solid-state experiments |
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J.O. Kane, D.D. Ryutov, B.A. Remington, S.G. Glendinning, J. Nash, M. Pound & D. Arnett |
Pillars of creation |
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D. Kartoon, D. Oron, L. Arazi, A. Rikanati, U. Alon & D. Shvarts |
Three dimensional multi-mode Rayleigh-Taylor and Richtmyer-Meshkov instabilities at all density ratios |
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The interaction of supernova blast waves with interstellar clouds: experiments on the omega laser |
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The behavior of velocity variance resulting from turbulent mixing zone-shock interaction |
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V.I. Kozlov, A.N. Razin & I.V. Saphzhnikov |
Turbulent flow simulations of two fluids moving with different laws of acceleration |
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V.M. Ktitorov |
Stability of diverging shock waves |
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V.M. Ktitorov |
Stability of reflected from the center self-similar converging shock wave |
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Yu.A. Kucherenko, S.I. Balabin, R.I. Ardashova, O.E. Kozelkov, A.V. Dulov & I.A. Romanov |
Experimental investigation into influence of stabilizing properties of transitional layers upon the turbulent mixing evolution |
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Yu. A. Kucherenko, S.I. Balabin, R.I. Ardashova, A.P. Pylaev, O.E. Kozelkov & V.D. Murzakov |
Experimental investigation of the heavy and light media separation in the Rayleigh-Taylor turbulence zone at different Atwood numbers |
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Yu. A. Kucherenko, A.P. Pylaev, V.D. Murzakov, A.V. Belomestnih, V.N. Popov & A.A. Tyaktev |
Experimental study into Rayleigh-Taylor turbulent mixing zone heterogeneous structure |
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Yu.A. Kucherenko, O.E. Shestachenko, S.I. Balabin & A.P. Pylaev |
Rfnc-vniitf multifunctional shock tube to investigate the evolution of instabilities in nonstationary gas dynamic flows |
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Yu.A. Kucherenko, O.E. Shestachenko, Yu.A. Piskunov, E.V. Sviridov, V.M. Medvedev & A.I. Baishev |
Experimental study into evolution of gravitational turbulent mixing of gases at the multifunctional shock tube |
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Yu.A. Kucherenko, O.E. Shestachenko, Yu.A. Puskunov, E.V. Sviridov, V.M. Medvedev & A.I. Baishev |
Experimental investigations of the self-similar mixing mode of different density gases in the earth’s gravitational field |
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Spherical combustion layer in a tnt explosion |
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Hydrodynamic instabilities at a shock accelerated bubble gas-gas interface |
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Studies of Rayleigh-Taylor instability in aluminum under shock-wave and shock-less loading |
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Application of a laser shock tube for the study of supersonic gas flows and the development of hydrodynamic instabilities in layered media |
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K. Levy, O. Sadot, D. Oron, Y. Srebro, Y. Elbaz, A. Josef-Hai, G. Ben-Dor & D. Shvarts |
Experimental and numerical study of shock wave-bubble interaction |
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Using a turbulence transport approach to study shocks through polycrystalline metal |
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A. Llor |
Response of turbulent RANS models to self-similar variable acceleration RT-mixing: an analytical 0d analysis |
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K.T. Lorenz, D. Kalantar, J. Edwards, J.D. Colvin & B. Remington |
Laser-driven near isentropic compression of an aluminum flyer plate |
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K.O. Mikaelian |
Evolution of arbitrary perturbations in the Richtmyer-Meshkov instability |
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A. Miles, J. Edwards & S.G. Glendinning |
CALE simulation of Richtmyer-Meshkov experiments at high Mach number |
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C.E. Niederhaus & J.W. Jacobs |
Single-mode incompressible Richtmyer-Meshkov instability experiments |
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Nonlinear evolution of an interface in the Richtmyer-Meshkov instability |
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K. Nishihara, V. Zhakhovskii & M. Abe |
Molecular dynamic simulation of shock and Richtmyer-Meshkov instability in cylindrical geometry |
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Experimental study of a strongly-shocked gas interface with visualized initial conditions |
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Compressibility effects in a high-speed, reacting shear layer: an investigation using DNS |
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K.W. Parker, A.M. Dunne, S. Rothman, D.L. Youngs, C. Barnes, S.H. Batha, N.E. Lanier, G.R. Magelssen, T.J. Murphy & J.M. Scott |
Computational modeling of two-shell cylindrical implosions with mix |
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Dispersal of mass and circulation following shock-sphere (axisymmetric) and shock cylinder interactions: effects arising from shock cavity collapse, vortex double layers; density-gradient intensification and vortex projectiles |
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S. Pollaine, D. Kalantar, B. Remington, J. Belak, J.D. Colvin, J. Edwards, R. Minich, K.O. Mikaelian, K.T. Lorenz, S.V. Weber, L.G. Wiley, D. Paisley, A. Hauer, J.S. Wark, A. Loveridge, A.M. Allen, T.R. Boehly & M.A. Meyers |
Modeling laser material strength experiments |
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K. Prestridge, C.A. Zoldi, P. Vorobieff, P.M. Rightley & R.F. Benjamin |
Experiments and simulations of instabilities in a shock-accelerated gas cylinder |
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Influence of turbulent mixing zone on growth of local perturbation in environments of Rayleigh-Taylor instability (numerical simulation) |
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P. Ramaprabhu & M.J. Andrews |
Measurements of turbulence correlations in low Atwood number Rayleigh-Taylor mixing |
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A statistical comparison of gas cylinder experiments with their simulation |
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Statistical mechanics large scale model for the evolution of the multi-mode Kelvin Helmholtz instability |
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Effects of high initial amplitudes and high Mach numbers on the evolution of the RM instability: i. Theoretical study |
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H.F. Robey & S.G. Glendinning |
A vortex model for studying the effect of shock proximity on Richtmyer-Meshkov instability at high Mach number |
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H.F. Robey, T.S. Perry, R.I. Klein, J.A. Greenough, J.O. Kane & T.R. Boehly |
Experimental study of the interaction of a strong shock with a spherical density inhomogeneity |
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H.F. Robey, Y.K. Zhou, A.C. Buckingham, P. Keiter, B.A. Remington & R.P. Drake |
Turbulent transition in a high reynolds number, Rayleigh-Taylor unstable plasma flow |
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Compressible mhd turbulence in strongly radiating molecular clouds in astrophysics |
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O. Sadot, A. Yosef-Hai, A. Rikanati, D. Oron, G. Ben-Dor & D. Shvarts |
Effects of high initial amplitudes and high Mach numbers on the evolution of the RM instability: II. Experimental study |
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Large eddy simulation of strong shock Richtmyer-Meshkov instability |
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O. Schilling |
Single-velocity, multi-component turbulent transport models for interfacial instability-driven flows |
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O. Schilling |
Summary of the 8th International Workshop on the Physics of Compressible Turbulent Mixing |
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Large- and small-scale dynamics of variable-density Rayleigh-Taylor instability-induced turbulent mixing |
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L. Schwaederlé, G. Jourdan, L. Houas & J.-F. Haas |
Measurements within a Richtmyer-Meshkov mixing zone using a triple hot wire probe technique |
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Numerical investigation of a laser induced turbulent mixing zone |
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A.V. Smith, D.A. Holder, C.J. Barton, A.P. Morris & D.L. Youngs |
Shock tube experiments on Richtmyer-Meshkov instability across a chevron profiled interface |
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A mix-model for one-dimensional simulations of laser-driven implosion experiments |
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Modeling turbulent mixing in inertial confinement fusion implosions |
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Turbulent mixing nuclear burning in type ia supernova explosion based on bubble statistical mechanics |
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Spectral analysis of turbulent flows induced by RT and RM instabilities |
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C. Tomkins, K. Prestridge, P. Rightley, C.A. Zoldi & R. Benjamin |
The evolution and interaction of two shock-accelerated unstable gas cylinders |
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N. Toqué |
Turbulent diffusion in solar type star |
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Analytical study of the Rayleigh-Taylor instability in compressible fluids |
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M. Vandenboomegaerde, C. Cherfils, D. Galmiche, S. Gauthier & P.A. Raviard |
Efficient perturbation methods for Richtmyer-Meshkov and Rayleigh-Taylor instabilities: weakly nonlinear stage and beyond |
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Analytic nonlinear growth of a single-mode Richtmyer-Meshkov instability |
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E. Vold |
Recent computational simulations of Rayleigh-Taylor mix layer growth with a multi-fluid model |
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An efficient and high resolution solver for the two-dimensional numerical simulation of the Richtmyer-Meshkov instability |
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D.J. Ward, K.S. Budil, T.A. Peyser, B.A. Remington, P.L. Miller, R.J. Wallace, H. Louis & A. Demiris |
Doubly-shocked Richtmyer-Meshkov instability experiments at nova |
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Ale simulations of turbulent Rayleigh-Taylor instability in 2-D and 3-D |
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Combined shear and buoyancy instabilities |
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J.G. Wouchuk |
Rate of growth of the linear Richtmyer-Meshkov instability |
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Yu.V. Yanilkin, V.P. Statsenko, S.V. Rebrov, N.I. Selchenkova, O.G. Sin'kova, A.L. Stadnik & A.Ya. Uchayev |
Study of turbulent gravitational mixing at large densitydifferences using direct 3D numerical simulation |
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A. Yosef-Hai, O. Sadot, D. Kartoon, D. Oron, E. Sarid, G. Ben-Dor & D. Shvarts |
The dependence of the shock induced Richtmyer-Meshkov instability on dimensionality and density ratio |
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D.L. Youngs |
Review of numerical simulation of mixing due to Rayleigh-Taylor and Richtmyer-Meshkov instabilities |
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D.L. Youngs |
Development and validation of a 2D turbulent mix model |
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Preliminary results of DNS and LES simulations of self-similar variable acceleration RT-mixing flows |
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S.G. Zaytsev |
The experimental study of excitation and development of the hydrodynamic instability in the mixing zone separating gases of different densities at their accelerated motion |
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S.G. Zaytsev, V.V. Krivets, I.M. Mazlin, S.N. Titov, E.I. Chebotareva, V.V. Nikishin, V.F. Tishkin, S. Bouquet & J.-F. Haas |
Evolution of the mixing zone of different densities gases being interaction to compression waves |
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Shock-planar curtain interactions: strong secondary baroclinic deposition and the emergence of coherent and random vortex projectiles (VPs) and decaying stratified turbulence |
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Rapid turbulization arising from vortex double layers in interactions of "complex" blast waves and cylindrical and spherical bubbles |
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Y. Zhou, H.F. Robey & A.C. Buckingham |
A new framework for transitional and turbulent mixing |
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C.A. Zoldi, K. Prestridge, P.M. Rightley & R.F. Benjamin |
Simulation of a shock-accelerated gas cylinder and comparison with experimental images and velocity fields |
