Latest Articles for Fluid Dynamics

Research reveals how fluid dynamics influence organism movement and population stability.

This article examines the turbulent behavior of waves in Bose-Einstein condensates.

A robot moves on water using wave interactions, challenging traditional propulsion methods.

Study reveals impacts of water flow on vibrating structures and their safety.

This article examines the development of thermal vortex rings and their importance.

Using machine learning to improve airflow studies and control with limited data.

Introducing a new diffusion operator for improved material simulations.

A new method improves turbulence model efficiency using Kolmogorov's insights.

A method to gauge error in numerical solutions for complex systems over time.

A new approach to modeling complex fluid dynamics and spray behavior.

This article focuses on control methods for two-fluid systems in fluid dynamics.

An overview of turbulence and its energy dynamics in fluid systems.

This article discusses how GNNs improve airfoil airflow predictions.

This article discusses the difficulties PINNs face in maintaining mass balance during simulations.

This study reveals how particles form lanes and jam clusters in active mixtures.

Exploring flow behaviors near a plate in a Brinkman fluid.

Research reveals complex behavior of quantum fluids in non-stable states.

A look into how thermalization and hydrodynamics work in simplified particle systems.

Research reveals complex behaviors of polymer chains near solid surfaces.

Quantum algorithms offer a faster approach to complex fluid simulations, enhancing accuracy and efficiency.

Examining how the Coriolis force affects fluid motion and turbulence in two-dimensional flows.

Research reveals how gas jets fluidize particles in a unique bed setup.

A method to estimate the strength and position of vortices from passive particles.

This study presents a new way to control droplet movement using light.

Examining the behavior of turbulent flows in compressible fluids.

Researchers study surface patterns in liquids under vibrations to understand fluid behavior.

Research reveals links between particle behavior and fluid models, enhancing our understanding.

Examining how particles influence turbulent flows in plane-Couette flow setups.

FactFormer enhances the simulation of complex physical systems using innovative attention mechanisms.

A look into entropic force and its role in fluid behavior.

Instabilities in protoplanetary disks are key to understanding planet formation.

Examining wave behavior and shear layers in rotating fluid systems.

Exploring -SQG equations in fluid dynamics and their unique solution behavior.

Learn how superfluid disturbances create unique wake patterns influenced by speed.

Insights into the transition layer's role in X-ray emissions from compact objects.

Examining how magnetic energy and turbulence interact across different environments.

This research examines how electrolyte solutions behave in confined environments.

A study on how liquid films behave on horizontal cylinders.

This study analyzes a mathematical model of bacterial response to chemicals.

Exploring the behavior of solitary waves in deep water and their significance.