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1.Wouter J. T. BOSorcid_16x16.png (2021).
Three-dimensional turbulence without vortex stretching
J. Fluid Mech. 915, A121 (19 pages). doi:10.1017/jfm.2021.194 doi.ico hal.ico clarivate_16x16.png
2.Yann HAFFNERorcid_16x16.png, Thomas CASTELAIN, Jacques BORÉE, Andreas SPOHN (2021).
Manipulation of three-dimensional asymmetries of a turbulent wake for drag reduction
J. Fluid Mech. 912, A6 (28 pages). doi:10.1017/jfm.2020.1133 doi.ico clarivate_16x16.png
3. 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
4.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
5.Muhammad Zubair SHEIKHorcid_16x16.png, Kristian GUSTAVSSONorcid_16x16.png, Diego LOPEZorcid_16x16.png, Emmanuel LÉVÊQUEorcid_16x16.png, Bernhard MEHLIGorcid_16x16.png, Alain PUMIRorcid_16x16.png, 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
6.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
7.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
8.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
9.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
10.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
11.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
12.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
13.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
14.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
15.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 hal.ico clarivate_16x16.png
16.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 hal.ico clarivate_16x16.png
17.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 hal.ico clarivate_16x16.png
18.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
19.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 hal.ico clarivate_16x16.png
20.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
21.Pierre PINEAUorcid_16x16.png, Christophe BOGEYorcid_16x16.png (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
22.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
23.Christophe BOGEYorcid_16x16.png, 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 hal.ico clarivate_16x16.png
24.Christophe BOGEYorcid_16x16.png (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 hal.ico clarivate_16x16.png
25.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
26.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 hal.ico clarivate_16x16.png
27.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
28.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
29.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
30.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
31.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
32.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
33. 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
34.Matteo MANCINELLI, Tiziano PAGLIAROLI, Roberto CAMUSSIorcid_16x16.png, 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
35.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
36.Aurore NASOorcid_16x16.png, Jennifer JUCHA, Emmanuel LÉVÊQUEorcid_16x16.png, Alain PUMIRorcid_16x16.png (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
37.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
38.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
39.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
40.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
41.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
42.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
43.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
44.Matteo MANCINELLI, Tiziano PAGLIAROLI, Alessandro DI MARCO, Roberto CAMUSSIorcid_16x16.png, 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
45.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
46.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
47.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
48.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
49.Christophe BOGEYorcid_16x16.png, 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
50.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
51.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
52.Romain GOJON, Christophe BOGEYorcid_16x16.png, 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
53.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
54.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
55.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
56.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 hal.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 hal.ico clarivate_16x16.png
57.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
58.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
59.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
60.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
61.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
62.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
63.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
64.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
65.Michel VOßKUHLE, Alain PUMIRorcid_16x16.png, 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
66.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
67.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
68.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
69.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
70.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
71.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
72.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
73.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
74.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
75.Sergey KARABASOV, Christophe BOGEYorcid_16x16.png, 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
76.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
77.Colin LECLERCQ, Benoît PIERorcid_16x16.png, Julian F. SCOTT (2013).
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