Latest Articles for Fluid Dynamics

New approach improves turbulence simulation using deep learning and physics-based methods.

A new method improves quantum algorithms for solving linear equations more effectively.

Examining how fluids behave in narrow spaces and their real-world applications.

Exploring the dynamics of fluid movement in porous materials and its implications.

Examine how liquid mixtures change during drying for electronic device production.

An experiment simulates moist air movements and interactions in the atmosphere.

Study reveals how molecular weight distribution and concentration shape thinning behavior in polymer solutions.

A competition focuses on using ML for airfoil design simulations.

A model predicts how fluids move around different shapes, improving flow analysis.

Examining how flexible surfaces interact with fluids reveals important insights.

Research on moment methods enhances understanding of particle behavior in gases.

This article discusses the importance of learning operators in Banach spaces for scientific computing.

Altering a sphere's surface can effectively generate lift in air.

A new approach to tackle drag in turbulent fluid flows using the Josephson-Anderson relation.

Exploring the discontinuous Galerkin spectral element method for nonlinear conservation laws.

Examining air flow transitions at hypersonic speeds and their impact on vehicle safety.

Exploring how disks behave in special liquid films with unique properties.

This article examines how turbulence affects the interaction between bubbles and particles.

Researchers investigate vortex rings formed during particle collisions to understand matter behavior.

This article examines how Rossby Wave Instability influences dust dynamics in protoplanetary disks.

Study reveals how heavy particles interact with vortex crystal flows.

This method improves vortex separation in turbulent flows for better analysis.

Learn how surface growth impacts nature and technology across various fields.

This article examines how liquid moves in shaken cylindrical containers.

Examining the interaction of vortices in dipolar superfluids and their implications.

Examining energy efficiency of liquid droplets on convex surfaces.

Research highlights new methods for creating and analyzing droplets in microfluidics.

Research shows how cavity size affects performance of synthetic jet actuators.

A new model simplifies the study of swimming across different species and sizes.

Study investigates how surface texture impacts water droplet behavior on titanium.

A look at fluid dynamics and the transition from order to chaos.

Research reveals how sound interacts with shear layers in high-speed fluids.

Discover how fluid properties influence complex patterns in Hele-Shaw flow experiments.

Study explores how Bose gas can exhibit anyonic properties through gauge field introduction.

This study investigates vertical velocity skewness in turbulent fluid dynamics.

This article studies how nonlocal bright solitons behave in dynamic environments.

Examining methods to efficiently solve the generalized Stokes problem in fluid flow.

Carrollian fluids combine relativity and fluid dynamics, revealing new mathematical challenges.

Exploring the unique properties of Carrollian fluids in theoretical physics.

Exploring fluid interactions and their impact on various applications.