Latest Articles for Fluid Dynamics

This study introduces tensor-train networks to enhance flow simulation accuracy and efficiency.

Explore the fascinating behavior of liquid drops in various fluid environments.

A look into the behavior of liquid filaments during pinch-off in polymers.

Research reveals how varying pore sizes affect fluid movement in materials.

We develop methods for refining models using noisy and indirect observations.

A look into shallow water systems and their importance in marine science.

A new neural network approach improves accuracy in hyperbolic conservation laws.

Researchers study unexpected behaviors in fluid flows through Euler equations and singularities.

Study reveals how disks behave near walls in active nematic fluids.

This study examines bubble dynamics affecting fluid flow in channels.

This study examines how pressure pulses interact with Rayleigh-Taylor instability in fluids.

Examining shear viscosity in Quark Gluon Plasma across varying densities and temperatures.

Research shows how nonlinearity affects wave localization in disordered environments.

This research discusses fluid behavior under gravity and temperature changes.

Exploring new methods for accurately modeling fluid flow and substance transport.

Examining how surface texture influences heat management in 3D printed parts.

A deep look into the behavior and significance of surface waves.

New insights into EVP fluids for better material applications in various industries.

Examining fluid dynamics to reveal insights about black holes through analogue systems.

This article examines feedback control methods for efficient tank-liquid management.

Exploring the potential of quantum computing in fluid dynamics simulations.

Insights into water waves and their importance for various applications.

Research uncovers complex viscosity dynamics in quark-gluon plasma.

Examining how intrinsic compressibility influences fluid behavior in high-speed flows.

Exploring efficient methods to simulate vortex dynamics in fluid flows.

Exploring how fluid dynamics influence organic electronic device patterns.

A deep look into magnetohydrodynamics and its challenges.

A look into the chaotic behavior of three-dimensional maps.

Exploring the interaction of magnetic fields and fluids with monopoles in two dimensions.

Introducing a method to improve predictions of randomly collected spatiotemporal data.

Examining interactions between small-scale and large-scale dynamos in stars.

New methods improve efficiency in heat and drag management for various applications.

Improving quantum methods to solve the Poisson equation in fluid dynamics.

Explore the chaotic nature of turbulence and its implications for fluid dynamics.

Exploring extreme behaviors in mathematical wave equations related to fluids and plasma.

A new approach enhances fluid flow modeling for better resource management.

An overview of heat transport through turbulent convection in various astrophysical environments.

This article discusses methods to stabilize the Burgers equation for better modeling.

This article examines how particle layers relax after compression.

An overview of vector fields and their interactions in 2D spaces.