Latest Articles for Numerical Simulations

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

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

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

Exploring efficient methods to simulate vortex dynamics in fluid flows.

Learn about turbulent boundary layers and their impact on vehicle performance.

This study improves simulations of molten metal droplets in microgravity environments.

A look into how waves behave in materials that change over time.

New methods improve plasma simulations for better understanding and applications.

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

Efficiently generating signals from core collapse supernovae for better understanding.

Researchers develop methods to simulate particle movement and interactions accurately.

Examining the complex behavior of self-interacting vector fields linked to gravity.

This article explores methods for modeling interactions of charged particles in plasmas.

Study reveals significant phase transitions in gauge-Higgs interactions.

Researchers reveal geometric features of multipartite entanglement in two-dimensional quantum systems.

A look into the behavior of binary fluid mixtures and their turbulence.

This study reveals new insights into spin currents in ferromagnetic materials.

This study analyzes three-dimensional turbulent boundary layers around swept blunt bodies.

Study reveals complex behavior in counter-rotating Taylor-Couette flow through period doubling.

An overview of Dirac operators, their indices, and implications in physics.

A look into the behavior of stable processes near geometric boundaries.

Examining how magnetic fields are generated and sustained in astrophysical systems.

Researchers introduce a symmetry-based approach to study chiral topological phases and anyons.

This study examines hyperboloidal slices for improved gravitational wave simulations.

Study reveals interactions of a single spin with its bosonic environment.

This article examines how stable layering affects resistive tearing instabilities in conductive fluids.

A look at input-to-state stability in complex control systems.

Research sheds light on unique mass generation in fermions and gauge theories.

A look at simulations that help understand dark matter and dark energy.

Examining various models and their behaviors in nonlinear acoustics.

Exploring interactions of photons and qubits in quantum systems.

This study reveals how particle probabilities change in an expanded quantum well.

Learn how PML improves wave simulation accuracy by minimizing reflections.

Exploring chaotic behavior in fluid dynamics through Taylor-Couette flow findings.

This study examines fluid behavior and wave patterns in curved pipes.

A look into crosscap states and their significance in the Ising model.

New methods improve the accuracy of gravitational wave simulations from binary systems.

Study shows staggered fermions exhibit lower taste symmetry breaking in varying conditions.

A deep dive into entanglement entropy in fully connected quantum systems.

A look at how ions behave under electric forces in confined environments.