Latest Articles for Computer Simulations

A look at how computer methods improve car side sill safety.

Explore the interactions in the Ashkin-Teller model and the nature of clusters.

Exploring the dynamics of simple spin systems reveals complex behaviors in materials.

Exploring techniques and methods in understanding particle interactions at critical points.

These models are key for studying materials and their magnetic properties.

Exploring how changing magnetic fields affect material behavior through a unique model.

Improving fluid simulations using enhanced transport velocity techniques.

Discover how high-order Discontinuous Galerkin methods improve fluid dynamics simulations.

A look into the behavior of stars within the Hénon-Heiles system.

Scientists improve fluid simulations by blending methods for accurate results.

A study on the effects of temperature and pressure on Ti AlC properties.

Exploring how bacteria navigate fluids using mathematical models and methods.

Exploring the behavior of CaSiO3 under extreme conditions.

Examining how shapes interact when they come together under pressure.

Learn about the latest features and improvements in Lifex Library 2.0.

GRoovy helps scientists simulate celestial events under extreme conditions.

A faster method for simulating binary star interactions during the common-envelope phase.

Active Flux method enhances sound wave analysis in fluid dynamics.

An overview of diffusion through lattice gas models and nonlinear effects.

Discover how models help track and predict disease spread in communities.

Learn how simulations advance our knowledge of genetic changes in populations.

Discover how simulation tools enhance biological research and drug development.

Explore advanced methods for simulating particles in fluids.

Explore how discretization affects magnetic behavior in simulations.

Discover how SLLBM improves 3D fluid simulations and its real-world applications.

CHIPS-FF is changing how researchers evaluate material behaviors for semiconductors.

Research enhances understanding of fluorite materials for nuclear energy applications.

New software improves understanding of lubricant flow under high pressure.

Learn how surrogate models help make sense of complex data.

A fresh approach to modeling complex interfaces in materials science.

Dwarf galaxies shape the universe's evolution in surprising ways.

New adaptive simulations improve understanding of magnetohydrodynamics and cosmic phenomena.

Learn how charged particles shape material interactions and future applications.

Discover how curves shape bicycle stability and movement.

Discover how nucleation shapes materials and impacts science.

Discover how particles move and rank in chaotic systems.