Latest Articles for Numerical Simulations

This article discusses the Zakharov equation and its impact on wave analysis.

A study on turbulent duct flows, structures, and their interactions.

New methods enhance predictions of fluid behavior in complex conditions.

Researchers tackle challenges in quantum mechanics with innovative numerical methods.

A new method improves simulations of two-phase flows with mass and heat transfer.

A fresh model improves understanding of how fibers stick and pull apart.

Examining how dual-unitary circuits maintain stability under small changes and chaotic behavior.

This article presents a detailed approach for simulating energy flow in high-temperature systems.

A look into an intriguing quantum phenomenon affecting particle behavior.

This study examines the effects of sideways forces on fluid motion and heat transport.

This study examines the behavior of mathematical systems with varying speeds.

A look into advanced simulation techniques for supersonic jets in aerospace engineering.

Study reveals how temperature differences affect fluid behavior in vertical channels.

A look into how shapes transform and vanish through Curve Shortening Flow.

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

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

A look into how disk arrangements affect physical systems.

Study reveals insights into the stability properties of the Taylor-Green vortex.

Examining how bubbles collapse and their impact in various fields.

This study analyzes meson properties using lattice gauge theories and spectral density reconstruction.

Examining how WBBs influence star formation and galaxy evolution.

A new approach reduces diffusion effects at boundaries in fluid studies.

New methods improve prediction of wave behavior in various fields.

This article examines fluid behavior around long shapes under varied conditions.

Study of vortex evolution and radiation through internal modes.

Understanding fluid movement through complex porous materials for better resource management.

Binary neutron star mergers reveal critical insights into astrophysics and gravitational waves.

Researchers study non-Hermitian diluted banded random matrices to reveal unique properties.

This study compares methods for simulating binary black holes in eccentric orbits.

This study examines how temperature-dependent fluid properties affect turbulent convection behavior.

This study examines fluorescence in T Tauri stars, focusing on light interactions.

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.