Latest Articles for Fluid Dynamics

A method to reconstruct shapes of obstacles concealed in fluids through boundary measurements.

Research sheds light on quark-gluon plasma behavior in heavy ion collisions using scalar fields.

This article examines the behavior of chiral particles in turbulent environments.

A look into how turbulence affects solar wind and space weather.

Study of MHD flows and their behavior in Hele-Shaw setups.

This study examines how surface textures influence turbulence and drag in fluid dynamics.

This article explores the unique bouncing motion of bubbles under specific conditions.

Research unveils the mechanisms of CSF drainage through lymphatic vessels.

This study simplifies turbulence using velocity gradient tensor networks.

This article clarifies the behavior of irrotational shocks in fluid flow.

Examining how lift forces influence particle movement in turbulent environments.

A look at the behavior and stability of vortex filaments in various fluids.

A study presents wavelet-based resolvent analysis for improved understanding of turbulent fluid dynamics.

Study of how turbulent flows interact with landscapes, influencing energy transfer in water bodies.

A new method enhances the study of turbulent flows through localized analysis.

A look at how fluids behave under small changes in porous media and Stokes systems.

A look into droplet formation and its implications in technology and health.

Examining similarities between fluid dynamics and quantum systems.

Analyzing turbulence through numerical methods for improved accuracy and insights.

New methods enhance understanding of fluid dynamics in extreme matter scenarios.

This article explores how shock waves interact with different fluids, creating complex behaviors.

Examining wave dynamics influenced by Earth's rotation and curvature.

Combining scattered and regular nodes improves accuracy in complex problem solving.

A new method uses data to stabilize fluid flow past a cylinder.

A new approach merges machine learning and physics to enhance fluid predictions.

Janus particles exhibit unique behaviors influenced by chemical gradients.

A method for stabilizing the Kuramoto-Sivashinsky equation under limited measurement conditions.

This article examines how viscoelastic fluids shift from smooth to chaotic flow.

Researchers utilize ULM to enhance the study of liquid metal flows and their applications.

This article examines how fluids mix and behave over time in various environments.

An overview of how sheared convective turbulence affects fluid dynamics and weather patterns.

New method enhances fluid movement modeling in complex underground environments.

New preconditioner improves fluid simulations in porous materials for various industries.

Explore the complexities of conservation laws impacted by sudden changes in flux.

Study of edge-waves and slopes in baroclinic instability enhances weather and climate models.

Study examines how ion-electron mass ratios affect plasma turbulence behavior.

Learn the basics of solid and fluid mechanics.

Study reveals how droplets interact through chemical signals and fluid movements.

This study investigates the stability of a two-dimensional fluid system under varying conditions.

Explore the fascinating behavior of vortices in superfluids within optical lattices.