Latest Articles for Computer Simulations

Study on how active particles behave during run-and-tumble motion.

New methods improve accuracy in simulating particles in fluid dynamics.

Explore the processes of freezing and melting in nature and industry.

Researchers use phase-field modeling to predict how materials fracture under stress.

A clear look into chemical reactions and their simulations, from basics to applications.

Stagger Code enhances modeling of fluid behaviors in astrophysics through simulations.

A new method enhances self-assembly simulations, offering faster and detailed insights.

This article examines how neutron radiation alters zirconium alloy properties critical for nuclear reactors.

Exploring how heating impacts the transition of magnetic states in planets.

New method sheds light on nucleation and crystal formation.

A new method improves predictions for flexible fiber behavior in fluid environments.

Scientists enhance simulations for understanding Quark Gluon Plasma through Gaussian Process emulators.

This article examines how different growth rates affect wrinkling in layered materials.

Researchers use simulations to investigate ion crystal behavior for quantum science.

Improving velocity measures enhances particle behavior simulations in various scientific fields.

Researchers improve plasma simulations with a new numerical integration method.

This study details the formation and dynamics of solar prominences through simulation.

Research on convection during neon burning in stars reveals complex dynamics.

Enhanced accuracy in simulating thin engineering structures like shells and beams.

Discover how KMC helps analyze particle movement in biological systems.

TORAX is an open-source simulator designed for tokamak plasma research.

A look at methods to improve slurry flow management in various industries.

Researchers use large simulations to analyze the universe's large-scale structure and its formation.

New methods improve accuracy and efficiency in simulations using varying fidelity levels.

A look into how galaxies move and interact within the universe.

A new method enhances halo mass definitions in approximate cosmic simulations.

This study evaluates simulation methods for accurate aircraft lift predictions.

Discover the unique properties and applications of miktoarm star polymers.

Study reveals methods for analyzing liquid behavior under various conditions.

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

Exploring how isotropic tensor fields reveal properties of amorphous solids.

The Pade code offers a new way to model turbulence around young stars.

Using simulations to improve vaccination decisions and reduce disease spread effectively.

Researching energy stability in crystal simulations enhances material behavior predictions.

An overview of gravitational waves and their lasting effects on our universe.

Study of particle interaction in a plasma system with two distinct surfaces.

Exploring Monte Carlo methods to study the behavior of glass-forming liquids.

A look into optimizing complex shapes using innovative techniques.

New model speeds up simulations of metal behavior in corrosive conditions.

A look into the Trotter-Kato splitting method and its role in quantum mechanics.