Resources

Author(s): Michael Berhanu, Amit Dawadi, Martin Chaigne, Jérôme Jovet, and Arshad Kudrolli We demonstrate that asymmetric ice blocks floating in water can self‑propel while melting. Experiments with triangular ice prisms show that melting generates a directed, buoyancy‑driven gravity current along the inclined face, producing steady translation. A momentum‑balance model quantitatively predicts the propulsion velocity as a function of ice geometry...

Author(s): Giuseppe Procopio Singular solutions in the stationary Stokes regime are reported for fluids confined by cylindrical walls. The stokeslet, stresslet, couplet, point source, and point source dipole are obtained internally, externally, and within the annular region between cylindrical walls using bitensorial calculus. Beyond providing hydrodynamic solutions relevant to particle transport in confined environments, this work highlights...

Author(s): Melisa Y. Vinograd, Joaquín Cullen, and Patricio Clark Di Leoni How many degrees of freedom characterize turbulent flow? We investigate the dimensionality of two-dimensional Kolmogorov flow across Reynolds numbers and forcing scales using convolutional autoencoders and Lyapunov analysis. Two dynamical transitions are identified, first associated with periodic-orbit destabilization and later with large-scale saturation. The resulting...

Author(s): Bowen Jin, Jiadong Wang, and Jian Deng Intermittent swimming boosts efficiency—but at what cost? Using two-dimensional simulations of an unconstrained pitching foil, we show that burst-and-coast motion induces pronounced lateral drift and a sharp, amplitude-driven reversal in trajectory direction. The deflection is governed by Strouhal-controlled scaling and wake realignment across burst and glide phases. These results uncover how intermittent...

Author(s): Aaron Winn and Eleni Katifori Peristaltic pumping drives flow in diverse biological and engineered systems. Previous models focus solely on radius-imposed contraction waves or neglect the elastic coupling between radial and longitudinal strains. By describing the fluid using the material coordinates of the deforming wall, we analyze flow in a tube undergoing simultaneous transverse and longitudinal contractions. We show that the elastic...

Author(s): Dongfang Zhao, Yumin Shi, and Shengkai Wang We developed a new method for high-resolution measurement of CO2 transport across the air–water interface, addressing a critical need in physical oceanography studies and in modern carbon sequestration applications. This method forgoes conventional probe-based sampling and statistical correlation, and exploits precision laser spectroscopy with rapid spatial beam scanning to directly quantify...

Author(s): Hugo Poncelet and Gautier Verhille We investigated experimentally for the first time the rotational dynamics of flexible fibers in homogeneous and isotropic turbulence. The rotation and the deformation of the fibers have been measured thanks to an efficient three-dimensional reconstruction algorithm from three simultaneous images. We show that an increase of fiber flexibility enhances the rotation rate. We show that this phenomenon...