In this @PhysRevFluids paper, we quantify numerically the Stokes drift and Eulerian viscous streaming contributions to the Lagrangian mean flow generation, offering new insights into orbital sloshing wave dynamics beyond traditional inviscid models.

RT @lfmi_epfl: We are pleased to announce that "Quasi-linear homogenization for large-inertia laminar transport across permeable membranes…

RT @BongarzoneAle: 🚀 Internship Opportunity: Data-based Control of Turbulent Flows Using Tools from Statistical Physics Passionate about a…

RT @Jamesguan1990: A bubbles is not just trapped air, it’s a tiny testament to the complex and beautiful mechanics of our natural world. Ou…

@Jamesguan1990 @apsfluiddynamic @saifulitamim @PhysMathLab This is so cool! 👏

RT @PhysRevLett: Combining methods from statistical mechanics and machine learning with data from highly resolved turbulence simulations, a…

🚀 Internship Opportunity: Data-based Control of Turbulent Flows Using Tools from Statistical Physics Passionate about aerospace engineering and research? Join us at @onera_fr! You'll explore techniques for feedback control theory of turbulent flows:

RT @SibylleMarcotte: 🏆Didn't get the Physics Nobel Prize this year, but really excited to share that I've been named one of the #FWIS2024 @…

RT @SibylleMarcotte: Newbies but goldies 😌: “Keep the Momentum: Conservation Laws beyond Euclidean Gradient Flows” with @gabrielpeyre and @…

RT @lfmi_epfl: In this ⁦@PhysRevFluids⁩ paper, we study a randomly forced flow past the onset of a pitchfork bifurcation. After reducing th…

RT @PhysRevFluids: Swirling with a rotating magnetic field! In their new paper, Horstmann et al. study interfacial waves induced by rotatin…

RT @PhysRevFluids: Numerical study on buoyancy-driven annular disks reveals how varying central hole diameter impacts stability and traject…

Check out our @PhysRevFluids paper, where we present a physics-inspired mathematical model based on linear eigenmode projections to solve the nonlinear relaxation dynamics of liquid oscillations with hysteretic contact line motions. @lfmi_epfl @APSphysics

RT @PhysRevLett: The pinning-depinning dynamics of a circular moving contact line are studied at the single-slip resolution using a mesosca…

RT @Jousefm2: 🌀 An Album of Computational Fluid Motion 🌀 👉 This website is an ongoing effort towards developing a…

RT @JFluidMech: Read a new #openaccess article in #JFMRapids: "Boundary-layer approach to the linear karren instability" by Simeon Djambov…

RT @PhysRevFluids: Reflecting on another great year of fluids research. In our 2023 #YearInReview, we celebrate groundbreaking research, st…

Swinging Jets: Experiments VS 3D Direct Numerical Simulations

Homemade visualizations of self-sustained dynamics and forced resonant oscillations in flows: cross-junction jets and sloshing liquids