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1. J. JOHN SOUNDAR JEROMEorcid_16x16.png, Sébastien THEVENIN, Mickaël BOURGOINorcid_16x16.png, Jean-Philippe MATASorcid_16x16.png (2021).
Inertial drag-out problem: sheets and films on a rotating disc
J. Fluid Mech. 908, A7. doi:10.1017/jfm.2020.879 doi.ico hal.ico clarivate_16x16.png
2.Yann HAFFNERorcid_16x16.png, Jacques BORÉE, Andreas SPOHN, Thomas CASTELAIN (2020).
Mechanics of bluff body drag reduction during transient near-wake reversals
J. Fluid Mech. 894, A14 (35 pages). doi:10.1017/jfm.2020.275 doi.ico clarivate_16x16.png
3.Muhammad Zubair SHEIKH, Kristian GUSTAVSSON, Diego LOPEZorcid_16x16.png, Emmanuel LÉVÊQUEorcid_16x16.png, Bernhard MEHLIG, Alain PUMIR, Aurore NASOorcid_16x16.png (2020).
Importance of fluid inertia for the orientation of spheroids settling in turbulent flow
J. Fluid Mech. 886, A9 (15 pages). doi:10.1017/jfm.2019.1041 doi.ico hal.ico clarivate_16x16.png
4.Thibault LESTANG, Freddy BOUCHET, Emmanuel LÉVÊQUEorcid_16x16.png (2020).
Numerical study of extreme mechanical force exerted by a turbulent flow on a bluff body by direct and rare-event sampling techniques
J. Fluid Mech. 895, A19 (29 pages). doi:10.1017/jfm.2020.293 doi.ico hal.ico clarivate_16x16.png
5.Antoine BRIARD, Louis GOSTIAUXorcid_16x16.png, Benoît-Joseph GRÉA (2020).
The turbulent Faraday instability in miscible fluids
J. Fluid Mech. 883, A57 (39 pages). doi:10.1017/jfm.2019.920 doi.ico hal.ico clarivate_16x16.png
6.Aurélien VADROTorcid_16x16.png, Alexis GIAUQUEorcid_16x16.png, Christophe CORREorcid_16x16.png (2020).
Analysis of turbulence characteristics in a temporal dense gas compressible mixing layer using direct numerical simulation
J. Fluid Mech. 893, A10 (39 pages). doi:10.1017/jfm.2020.218 doi.ico clarivate_16x16.png
7.Marie RASTELLO, Jean-Louis MARIÉorcid_16x16.png (2020).
Wake behind contaminated bubbles in a solid-body rotating flow
J. Fluid Mech. 884, A17 (23 pages). doi:10.1017/jfm.2019.936 doi.ico hal.ico clarivate_16x16.png
8.Alexis BARGE, Mikhael GOROKHOVSKIorcid_16x16.png (2020).
Acceleration of small heavy particles in homogeneous shear flow: direct numerical simulation and stochastic modelling of under-resolved intermittent turbulence
J. Fluid Mech. 892, A28 (32 pages). doi:10.1017/jfm.2020.162 doi.ico clarivate_16x16.png
9.Clément PERROT-MINOTorcid_16x16.png, Emmanuel MIGNOTorcid_16x16.png, Richard J. PERKINS, Diego LOPEZorcid_16x16.png, Nicolas RIVIÈREorcid_16x16.png (2020).
Vortex shedding frequency in open-channel lateral cavity
J. Fluid Mech. 892, A25 (11 pages). doi:10.1017/jfm.2020.186 doi.ico clarivate_16x16.png
10.Mathieu CREYSSELSorcid_16x16.png (2020).
Model for classical and ultimate regimes of radiatively driven turbulent convection
J. Fluid Mech. 900, A39 (22 pages). doi:10.1017/jfm.2020.521 doi.ico hal.ico clarivate_16x16.png
11.Yann HAFFNERorcid_16x16.png, Jacques BORÉE, Andreas SPOHN, Thomas CASTELAIN (2020).
Unsteady Coanda effect and drag reduction for a turbulent wake
J. Fluid Mech. 899, A36 (47 pages). doi:10.1017/jfm.2020.494 doi.ico clarivate_16x16.png
12.Étienne SPIESERorcid_16x16.png, Christophe BAILLYorcid_16x16.png (2020).
Sound propagation using an adjoint-based method
J. Fluid Mech. 900, A5 (25 pages). doi:10.1017/jfm.2020.469 doi.ico clarivate_16x16.png
13.Lei JIANG, Mathieu CREYSSELSorcid_16x16.png, Gary R. HUNT, Pietro SALIZZONIorcid_16x16.png (2019).
Control of light gas releases in ventilated tunnels
J. Fluid Mech. 872, 515–531. doi:10.1017/jfm.2019.363 doi.ico clarivate_16x16.png
14.Ernesto HORNEorcid_16x16.png, Felix BECKEBANZEorcid_16x16.png, Diane MICARD, Philippe ODIER, Leo R. M. MAASorcid_16x16.png, Sylvain JOUBAUDorcid_16x16.png (2019).
Particle transport induced by internal wave beam streaming in lateral boundary layers
J. Fluid Mech. 870, 848–869. doi:10.1017/jfm.2019.251 doi.ico clarivate_16x16.png
15.Andrea MAFFIOLIorcid_16x16.png (2019).
Asymmetry of vertical buoyancy gradient in stratified turbulence
J. Fluid Mech. 870, 266–289. doi:10.1017/jfm.2019.240 doi.ico clarivate_16x16.png
16.Frédéric ALIZARDorcid_16x16.png, Damien BIAU (2019).
Restricted nonlinear model for high- and low-drag events in plane channel flow
J. Fluid Mech. 864, 221–243. doi:10.1017/jfm.2019.14 doi.ico hal.ico clarivate_16x16.png
17.Gabriele GRASSOorcid_16x16.png, P. JAISWAL, Hao WUorcid_16x16.png, Stéphane MOREAU, Michel ROGER (2019).
Analytical models of the wall-pressure spectrum under a turbulent boundary layer with adverse pressure gradient
J. Fluid Mech. 877, 1007–1062. doi:10.1017/jfm.2019.616 doi.ico clarivate_16x16.png
18.Ying ZHU, Claude CAMBON, Fabien S. GODEFERDorcid_16x16.png, Abdelaziz SALHI (2019).
Nonlinear spectral model for rotating sheared turbulence
J. Fluid Mech. 866, 5–32. doi:10.1017/jfm.2019.101 doi.ico hal.ico clarivate_16x16.png
19.Pierre PINEAU, Christophe BOGEY (2019).
Steepened Mach waves near supersonic jets: study of azimuthal structure and generation process using conditional averages
J. Fluid Mech. 880, 594–619. doi:10.1017/jfm.2019.729 doi.ico hal.ico clarivate_16x16.png
20.Abdessamed MEDELFEF, Daniel HENRYorcid_16x16.png, Ahcéne BOUABDALLAH, Slim KADDECHE (2019).
Bifurcations from steady to quasi-periodic flows in a laterally heated cavity filled with low Prandtl number fluids
J. Fluid Mech. 861, 223–252. doi:10.1017/jfm.2018.912 doi.ico hal.ico clarivate_16x16.png
21.Christophe BOGEY, Roberto SABATINI (2019).
Effects of nozzle-exit boundary-layer profile on the initial shear-layer instability, flow field and noise of subsonic jets
J. Fluid Mech. 876, 288–325. doi:10.1017/jfm.2019.546 doi.ico clarivate_16x16.png
22.Christophe BOGEY (2019).
On noise generation in low Reynolds number temporal round jets at a Mach number of 0.9
J. Fluid Mech. 859, 1022–1056. doi:10.1017/jfm.2018.864 doi.ico clarivate_16x16.png
23.Sarah CLEVE, Matthieu GUÉDRA, Cyril MAUGERorcid_16x16.png, Claude INSERRAorcid_16x16.png, Philippe BLANC-BENON (2019).
Microstreaming induced by acoustically trapped, non-spherically oscillating microbubbles
J. Fluid Mech. 875, 597–621. doi:10.1017/jfm.2019.511 doi.ico hal.ico clarivate_16x16.png
24.Roberto SABATINI, Olivier MARSDEN, Christophe BAILLYorcid_16x16.png, Olaf GAINVILLE (2019).
Three-dimensional direct numerical simulation of infrasound propagation in the Earth's atmosphere
J. Fluid Mech. 859, 754–789. doi:10.1017/jfm.2018.816 doi.ico clarivate_16x16.png
25.Florence RAYNALorcid_16x16.png, Romain VOLK (2019).
Diffusiophoresis, Batchelor scale and effective Péclet numbers
J. Fluid Mech. 876, 818–829. doi:10.1017/jfm.2019.589 doi.ico hal.ico clarivate_16x16.png
26.Vincent CLAIRorcid_16x16.png, Gwénaël GABARDorcid_16x16.png (2018).
Spectral broadening of acoustic waves by convected vortices
J. Fluid Mech. 841, 50–80. doi:10.1017/jfm.2018.94 doi.ico hal.ico clarivate_16x16.png
27.Andrea SANSICAorcid_16x16.png, Jean-Christophe ROBINET, Frédéric ALIZARDorcid_16x16.png, Éric GONCALVÈS (2018).
Three-dimensional instability of a flow past a sphere: Mach evolution of the regular and Hopf bifurcations
J. Fluid Mech. 855, 1088–1115. doi:10.1017/jfm.2018.664 doi.ico hal.ico clarivate_16x16.png
28.Aurore LOISYorcid_16x16.png, Aurore NASOorcid_16x16.png, Peter D.M. SPELTorcid_16x16.png (2018).
The effective diffusivity of ordered and freely evolving bubbly suspensions
J. Fluid Mech. 840, 215–237. doi:10.1017/jfm.2018.84 doi.ico hal.ico clarivate_16x16.png
29.Lennon Ó NARAIGHorcid_16x16.png, Peter D.M. SPELTorcid_16x16.png (2018).
Instability of pressure-driven gas-liquid two-layer channel flows in two and three dimensions
J. Fluid Mech. 849, 1–34. doi:10.1017/jfm.2018.401 doi.ico hal.ico clarivate_16x16.png
30.Andrea TITTA, Marie LE MERRER, François DETCHEVERRY, Peter D.M. SPELTorcid_16x16.png, Anne-Laure BIANCE (2018).
Level-set simulations of a 2D topological rearrangement in a bubble assembly: effects of surfactant properties
J. Fluid Mech. 838, 222–247. doi:10.1017/jfm.2017.887 doi.ico hal.ico clarivate_16x16.png
31. J. JOHN SOUNDAR JEROMEorcid_16x16.png, Bastien DI PIERROorcid_16x16.png (2018).
A note on Stokes’ problem in dense granular media using the µ(I)-rheology
J. Fluid Mech. 847, 365–385. doi:10.1017/jfm.2018.250 doi.ico hal.ico clarivate_16x16.png
32.Matteo MANCINELLI, Tiziano PAGLIAROLI, Roberto CAMUSSI, Thomas CASTELAIN (2018).
On the hydrodynamic and acoustic nature of pressure proper orthogonal decomposition modes in the near field of a compressible jet
J. Fluid Mech. 836, 998–1008. doi:10.1017/jfm.2017.839 doi.ico hal.ico clarivate_16x16.png
33.Florence RAYNALorcid_16x16.png, Mickaël BOURGOINorcid_16x16.png, Cécile COTTIN-BIZONNE, Christophe YBERT, Romain VOLK (2018).
Advection and diffusion in a chemically induced compressible flow
J. Fluid Mech. 847, 228–243. doi:10.1017/jfm.2018.335 doi.ico hal.ico clarivate_16x16.png
34.Aurore NASOorcid_16x16.png, Jennifer JUCHA, Emmanuel LÉVÊQUEorcid_16x16.png, Alain PUMIR (2018).
Collision rate of ice crystals with water droplets in turbulent flows
J. Fluid Mech. 845, 615–641. doi:10.1017/jfm.2018.238 doi.ico hal.ico clarivate_16x16.png
35.Annick POUQUET, Duane ROSENBERG, Raffaele MARINOorcid_16x16.png, Corentin HERBERT (2018).
Scaling laws for mixing and dissipation in unforced rotating stratified turbulence
J. Fluid Mech. 844, 519–545. doi:10.1017/jfm.2018.192 doi.ico hal.ico clarivate_16x16.png
36.Vianney MASSONorcid_16x16.png, James R. MATHEWSorcid_16x16.png, Stéphane MOREAU, Hélène POSSON, Edward J. BRAMBLEYorcid_16x16.png (2018).
The impedance boundary condition for acoustics in swirling ducted flow
J. Fluid Mech. 849, 645–675. doi:10.1017/jfm.2018.429 doi.ico hal.ico clarivate_16x16.png
37.Frédéric ALIZARDorcid_16x16.png, Anne CADIOUorcid_16x16.png, Lionel LE PENVEN, Bastien DI PIERROorcid_16x16.png, Marc BUFFAT (2018).
Space–time dynamics of optimal wavepackets for streaks in a channel entrance flow
J. Fluid Mech. 844, 669–706. doi:10.1017/jfm.2018.191 doi.ico hal.ico clarivate_16x16.png
38.James R. MATHEWSorcid_16x16.png, Vianney MASSONorcid_16x16.png, Stéphane MOREAU, Hélène POSSON (2018).
The modified Myers boundary condition for swirling flow
J. Fluid Mech. 847, 868–906. doi:10.1017/jfm.2018.326 doi.ico hal.ico clarivate_16x16.png
39.Jean-Philippe MATASorcid_16x16.png, Antoine DELON, Alain CARTELLIER (2018).
Shear instability of an axisymmetric air-water coaxial jet
J. Fluid Mech. 843, 575–600. doi:10.1017/jfm.2018.167 doi.ico hal.ico clarivate_16x16.png
40.John CRASKE, Pietro SALIZZONIorcid_16x16.png, Maarten VAN REEUWIJK (2017).
The turbulent Prandtl number in a pure plume is 3/5
J. Fluid Mech. 822, 774–790. doi:10.1017/jfm.2017.259 doi.ico hal.ico clarivate_16x16.png
41.Mohamed Hatem ALLOUCHE, Valéry BOTTONorcid_16x16.png, Séverine MILLETorcid_16x16.png, Daniel HENRYorcid_16x16.png, Simon DAGOIS-BOHYorcid_16x16.png, Bülent GÜZEL, Hamda BEN HADID (2017).
Primary instability of a shear-thinning film flow down an incline: experimental study
J. Fluid Mech. 821, R1 (11 pages). doi:10.1017/jfm.2017.276 doi.ico hal.ico clarivate_16x16.png
42.Matteo MANCINELLI, Tiziano PAGLIAROLI, Alessandro DI MARCO, Roberto CAMUSSI, Thomas CASTELAIN (2017).
Wavelet decomposition of hydrodynamic and acoustic pressures in the near field of the jet
J. Fluid Mech. 813, 716–749. doi:10.1017/jfm.2016.869 doi.ico hal.ico clarivate_16x16.png
43.Marie RASTELLO, Jean-Louis MARIÉorcid_16x16.png, Michel LANCE (2017).
Clean versus contaminated bubbles in a solid-body rotating flow
J. Fluid Mech. 831, 592–617. doi:10.1017/jfm.2017.624 doi.ico hal.ico clarivate_16x16.png
44.Aurore LOISYorcid_16x16.png, Aurore NASOorcid_16x16.png, Peter D.M. SPELTorcid_16x16.png (2017).
Buoyancy-driven bubbly flows: ordered and free rise at small and intermediate volume fraction
J. Fluid Mech. 816, 94–141. doi:10.1017/jfm.2017.64 doi.ico hal.ico clarivate_16x16.png
45.Gaby LAUNAY, Emmanuel MIGNOTorcid_16x16.png, Nicolas RIVIÈREorcid_16x16.png, Richard J. PERKINS (2017).
An experimental investigation of the laminar horseshoe vortex around an emerging obstacle
J. Fluid Mech. 830, 257–299. doi:10.1017/jfm.2017.582 doi.ico hal.ico clarivate_16x16.png
46.Benoît PIERorcid_16x16.png, Peter J. SCHMIDorcid_16x16.png (2017).
Linear and nonlinear dynamics of pulsatile channel flow
J. Fluid Mech. 815, 435–480. doi:10.1017/jfm.2017.58 doi.ico hal.ico clarivate_16x16.png
47.Christophe BOGEY, Romain GOJON (2017).
Feedback loop and upwind-propagating waves in ideally expanded supersonic impinging round jets
J. Fluid Mech. 823, 562–591. doi:10.1017/jfm.2017.334 doi.ico hal.ico clarivate_16x16.png
48.Antoine VENAILLE, Louis GOSTIAUXorcid_16x16.png, Joel SOMMERIA (2017).
A statistical mechanics approach to mixing in stratified fluids
J. Fluid Mech. 810, 554–583. doi:10.1017/jfm.2016.721 doi.ico hal.ico clarivate_16x16.png
49.Bertrand MERCIER, Thomas CASTELAIN, Christophe BAILLYorcid_16x16.png (2017).
Experimental characterisation of the screech feedback loop in underexpanded round jets
J. Fluid Mech. 824, 202–229. doi:10.1017/jfm.2017.336 doi.ico hal.ico clarivate_16x16.png
50.Romain GOJON, Christophe BOGEY, Olivier MARSDEN (2016).
Investigation of tone generation in ideally expanded supersonic planar impinging jets using large-eddy simulation
J. Fluid Mech. 808, 90–115. doi:10.1017/jfm.2016.628 doi.ico hal.ico clarivate_16x16.png
51.Corentin HERBERT, Raffaele MARINOorcid_16x16.png, Duane ROSENBERG, Annick POUQUET (2016).
Waves and vortices in the inverse cascade regime of stratified turbulence with or without rotation
J. Fluid Mech. 806, 165–204. doi:10.1017/jfm.2016.581 doi.ico hal.ico clarivate_16x16.png
52.John GRUE, Daniel BOURGAULT, Peter S. GALBRAITH (2016).
Supercritical dead water: effect of nonlinearity and comparison with observations
J. Fluid Mech. 803, 436–465. doi:10.1017/jfm.2016.518 doi.ico hal.ico clarivate_16x16.png
53.Antoine BRIARD, Thomas GOMEZ, Claude CAMBON (2016).
Spectral modelling for passive scalar dynamics in homogeneous anisotropic turbulence
J. Fluid Mech. 799, 159–199. doi:10.1017/jfm.2016.362 doi.ico hal.ico clarivate_16x16.png
54.Vincent MONS, Claude CAMBON, Pierre SAGAUT (2016).
A spectral model for homogeneous shear-driven anisotropic turbulence in terms of spherically averaged descriptors
J. Fluid Mech. 788, 147–182. doi:10.1017/jfm.2015.705 doi.ico hal.ico clarivate_16x16.png
*.Andrea MAFFIOLIorcid_16x16.png, Peter A. DAVIDSON (2016).
Dynamics of stratified turbulence decaying from a high buoyancy Reynolds number
J. Fluid Mech. 786, 210–233. doi:10.1017/jfm.2015.667 doi.ico clarivate_16x16.png
*.Andrea MAFFIOLIorcid_16x16.png, Geert BRETHOUWER, Erik LINDBORG (2016).
Mixing efficiency in stratified turbulence
J. Fluid Mech. 794, R3. doi:10.1017/jfm.2016.206 doi.ico clarivate_16x16.png
55.Adam EZZAMEL, Pietro SALIZZONIorcid_16x16.png, Gary R. HUNT (2015).
Dynamical variability of axisymmetric buoyant plumes
J. Fluid Mech. 765, 576–611. doi:10.1017/jfm.2014.694 doi.ico hal.ico clarivate_16x16.png
56.Alan BURLOT, Benoît-Joseph GRÉA, Fabien S. GODEFERDorcid_16x16.png, Claude CAMBON, Jérôme GRIFFOND (2015).
Spectral modelling of high Reynolds number unstably stratified homogeneous turbulence
J. Fluid Mech. 765, 17–44. doi:10.1017/jfm.2014.726 doi.ico hal.ico clarivate_16x16.png
57.Yi SUI, Peter D.M. SPELTorcid_16x16.png (2015).
Non-isothermal droplet spreading/dewetting and its reversal
J. Fluid Mech. 776, 74–95. doi:10.1017/jfm.2015.313 doi.ico hal.ico clarivate_16x16.png
58.Wouter J. T. BOSorcid_16x16.png (2014).
The temperature spectrum generated by frictional heating in isotropic turbulence
J. Fluid Mech. 746, 85–98. doi:10.1017/jfm.2014.93 doi.ico hal.ico clarivate_16x16.png
59.Wouter J. T. BOSorcid_16x16.png (2014).
On the anisotropy of the turbulent passive scalar in the presence of a mean scalar gradient
J. Fluid Mech. 744, 38–64. doi:10.1017/jfm.2014.60 doi.ico hal.ico clarivate_16x16.png
60.Shyam Sunder GOPALAKRISHNAN, Benoît PIERorcid_16x16.png, Arie BIESHEUVEL (2014).
Dynamics of pulsatile flow through model abdominal aortic aneurysms
J. Fluid Mech. 758, 150–179. doi:10.1017/jfm.2014.535 doi.ico hal.ico clarivate_16x16.png
61.Juan Felipe TORRES, Daniel HENRYorcid_16x16.png, Atsuki KOMIYA, Shigenao MARUYAMA (2014).
Bifurcation analysis of steady natural convection in a tilted cubical cavity with adiabatic sidewalls
J. Fluid Mech. 756, 650–688. doi:10.1017/jfm.2014.448 doi.ico hal.ico clarivate_16x16.png
62.Colin LECLERCQ, Benoît PIERorcid_16x16.png, Julian F. SCOTT (2014).
Absolute instabilities in eccentric Taylor-Couette-Poiseuille flow
J. Fluid Mech. 741, 543–566. doi:10.1017/jfm.2013.646 doi.ico hal.ico clarivate_16x16.png
63.Michel VOßKUHLE, Alain PUMIR, Emmanuel LÉVÊQUEorcid_16x16.png, Michael WILKINSON (2014).
Prevalence of the sling effect for enhancing collision rates in turbulent suspensions
J. Fluid Mech. 749, 841–852. doi:10.1017/jfm.2014.259 doi.ico hal.ico clarivate_16x16.png
*.Andrea MAFFIOLIorcid_16x16.png, Peter A. DAVIDSON, Stuart B. DALZIEL, Nedunchezhian SWAMINATHAN (2014).
The evolution of a stratified turbulent cloud
J. Fluid Mech. 739, 229–253. doi:10.1017/jfm.2013.612 doi.ico clarivate_16x16.png
64.Lennon Ó NARAIGHorcid_16x16.png, Prashant VALLURI, David M. SCOTT, Iain BETHUNE, Peter D.M. SPELTorcid_16x16.png (2014).
Linear instability, nonlinear instability, and ligament dynamics in three-dimensional laminar two-layer liquid/liquid flows
J. Fluid Mech. 750, 464–506. doi:10.1017/jfm.2014.274 doi.ico hal.ico clarivate_16x16.png
65.Shyam Sunder GOPALAKRISHNAN, Benoît PIERorcid_16x16.png, Arie BIESHEUVEL (2014).
Global stability analysis of flow through a fusiform aneurysm: steady flows
J. Fluid Mech. 752, 90–106. doi:10.1017/jfm.2014.292 doi.ico hal.ico clarivate_16x16.png
66.Julian F. SCOTT (2014).
Wave turbulence in a rotating channel
J. Fluid Mech. 741, 316–349. doi:10.1017/jfm.2013.652 doi.ico hal.ico clarivate_16x16.png
67.Wouter J. T. BOSorcid_16x16.png, Robert RUBINSTEIN (2013).
On the strength of the nonlinearity in isotropic turbulence
J. Fluid Mech. 733, 158–170. doi:10.1017/jfm.2013.405 doi.ico hal.ico clarivate_16x16.png
68.Yi SUI, Peter D.M. SPELTorcid_16x16.png (2013).
Validation and modi cation of asymptotic analysis of slow and rapid droplet spreading by numerical simulation
J. Fluid Mech. 715, 283–313. doi:10.1017/jfm.2012.518 doi.ico hal.ico clarivate_16x16.png
69.Julian F. SCOTT (2013).
Moffatt-type flows in a trihedral cone
J. Fluid Mech. 725, 446–461. doi:10.1017/jfm.2013.180 doi.ico hal.ico clarivate_16x16.png
*.Maxime HUET, Alexis GIAUQUEorcid_16x16.png (2013).
A nonlinear model for indirect combustion noise through a compact nozzle
J. Fluid Mech. 733, 268–301. doi:10.1017/jfm.2013.442 doi.ico hal.ico clarivate_16x16.png
70.Lennon Ó NARAIGHorcid_16x16.png, Peter D.M. SPELTorcid_16x16.png, Stephen J. SHAW (2013).
Absolute linear instability in laminar and turbulent gas/liquid two-layer channel flow
J. Fluid Mech. 714, 58–94. doi:10.1017/jfm.2012.452 doi.ico hal.ico clarivate_16x16.png
71.Rémi ZAMANSKY, Ivana VINKOVIC, Mikhael GOROKHOVSKIorcid_16x16.png (2013).
Acceleration in turbulent channel flow: universalities in statistics, subgrid stochastic models and an application
J. Fluid Mech. 721, 627–668. doi:10.1017/jfm.2013.48 doi.ico hal.ico clarivate_16x16.png
72.Benoît PIERorcid_16x16.png (2013).
Transition near the edge of a rotating disk
J. Fluid Mech. 737 (9 pages). doi:10.1017/jfm.2013.578 doi.ico hal.ico clarivate_16x16.png
73.Sergey KARABASOV, Christophe BOGEY, Tom HYNES (2013).
An investigation of the mechanisms of sound generation in initially laminar subsonic jets using the Goldstein acoustic analogy
J. Fluid Mech. 714, 24–57. doi:10.1017/jfm.2012.448 doi.ico hal.ico clarivate_16x16.png
74.Alexandre PIERI, Fabien S. GODEFERDorcid_16x16.png, Claude CAMBON, Abdelaziz SALHI (2013).
Non-geostrophic instabilities of an equilibrium baroclinic state
J. Fluid Mech. 734, 535–566. doi:10.1017/jfm.2013.478 doi.ico hal.ico clarivate_16x16.png
75.Colin LECLERCQ, Benoît PIERorcid_16x16.png, Julian F. SCOTT (2013).
Temporal stability of eccentric Taylor-Couette-Poiseuille flow
J. Fluid Mech. 733, 68–99. doi:10.1017/jfm.2013.437 doi.ico hal.ico clarivate_16x16.png
76.Jun HU, Daniel HENRYorcid_16x16.png, Xie-Yuan YIN, Hamda BEN HADID (2012).
Linear biglobal analysis of Rayleigh?Bénard instabilities in binary fluids with and without throughflow
J. Fluid Mech. 713, 216–242. doi:10.1017/jfm.2012.455 doi.ico clarivate_16x16.png
*.Matthieu J. MERCIER, Manikandan MATHUR, Louis GOSTIAUXorcid_16x16.png, Theo GERKEMA, Jorge M. MAGALHÃES, José C. B. DA SILVA, Thierry DAUXOIS (2012).
Soliton generation by internal tidal beams impinging on a pycnocline: laboratory experiments
J. Fluid Mech. 704, 37–60. doi:10.1017/JFM.2012.191 doi.ico hal.ico clarivate_16x16.png
*.Michael J. BREAR, Franck NICOUD, Mohsen TALEI, Alexis GIAUQUEorcid_16x16.png, Evatt R. HAWKES (2012).
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