Latest Articles for Computer Simulations

A simplified approach to identify crystal structures using particle coordinates.

Investigating how phase influences particle behavior in disordered systems.

Researchers propose a novel method applying path integrals to discrete systems.

Efficient modeling techniques enhance engineering design processes and reduce costs.

Research reveals how unique particle shapes interact and form arrangements.

Examining the factors that contribute to the stability of planetary systems.

Exploring new methods for solving nonlocal interactions in various fields.

Research reveals the impact of friction laws on material rupture behavior.

A deep look into fluid behavior near surfaces under turbulence.

A look at new dynamic modeling techniques for better turbulent flow simulations.

This article examines mathematical models for disease transmission and their public health implications.

Analyzing pressure correction methods for fluid dynamics error management in simulations.

A novel approach to predict the behavior of functional graded beams under various conditions.

A look at how random movement affects particles in various interactions.

A new method enhances simulation accuracy for particle collisions in plasma.

ReactCA simulates solid-state reactions for better materials synthesis.

Research confirms dual boundary conditions for the Stokes problem, aiding fluid dynamics.

BMach algorithm improves accuracy in predicting electronic properties of materials.

A look into how dark matter and neutrinos shape the universe.

A study of gauge theories focusing on particle interactions and behavior.

Research reveals how cosmic filaments evolve and connect galaxies over time.

Implementing multi-agent reinforcement learning to manage Rayleigh-Bénard convection.

Study reveals how disturbances affect energy loss in pair plasma magnetic reconnection.

New research reveals lower mass-loss rates from protoplanetary discs due to X-ray photoevaporation.

Research reveals how impurities change the characteristics of hexagonal-diamond silicon.

A new approach to study complex social behaviors using simulations.

A fast method for simulating stellar streams from globular clusters is developed.

A study on phase separation in mixtures using dynamic boundary conditions.

Exploring cosmic structure formation and implications for dark energy through advanced simulations.

This study looks at how small particles behave during low-speed collisions.

This article examines how particles impact fluid behavior in lid-driven cavities.

Exploring the behavior and significance of soliton gas in wave phenomena.

A new method improves fluid and solid contact in simulations.

A look into how lattice quantum gravity merges quantum mechanics and gravity.

Research reveals how particle density affects movement patterns in fluid systems.

This study examines how star feedback influences the angular momentum of galaxies.

Examining how hubs function in random networks and their impact on overall dynamics.

NeuralMPM speeds up material simulations using deep learning techniques.

This study reveals crucial properties of current sheets in plasma turbulence.

New methods enhance the prediction of melting temperature for material development.