Latest Articles for Computer Simulations

Research sheds light on mergers between small black holes and neutron stars.

New models and methods improve predictions of tumor behavior and treatment response.

New findings enhance the accuracy of BOLD fMRI analytical models.

Researchers are connecting fuzzy spheres to create a new model of quantum space.

A new method enhances stability and energy conservation in SPH fluid simulations.

This study investigates energy flow in a chain of interacting particles.

A method to combine atomic and continuum models for better material predictions.

Two deep learning models enhance shape optimization for aerodynamics, reducing manual efforts.

Research reveals how excitons move in quantum dots, influencing technology advancements.

A novel approach enhances molecular simulation efficiency and accuracy without traditional limitations.

A new model predicts magnesium's properties more accurately across various conditions.

A look into the mechanics of fluid behavior in compressible flow.

MoSiN and WSiN show promise in managing heat in transistors compared to silicon.

This article explores cosmological simulations and their role in understanding our Universe.

A new approach to modeling complex fluid dynamics and spray behavior.

This article discusses how GNNs improve airfoil airflow predictions.

New simulator predicts granular flow behavior using Graph Neural Networks.

Research reveals phase transitions in a classical loop model on a square grid.

A look into how thermalization and hydrodynamics work in simplified particle systems.

A method to estimate the strength and position of vortices from passive particles.

This study reveals how the shape of particles affects their arrangement into crystals.

A new method enhances the calculation of transport coefficients in molecular dynamics.

A study on the behavior of liquid crystals formed by hard right triangles.

New methods improve accuracy in modeling phase transitions in materials.

A new method combines machine learning with simulations to generate valuable data.

Cu Sn IMC is essential for modern electronic connections and energy storage applications.

Research reveals how dust affects galaxy light and star formation rates.

A look into Frank loops and their impact on materials in radiation environments.

Study reveals key insights into magnetic behavior in astrophysical disks.

This article examines how time step sizes affect accuracy in nonlinear simulations.

An overview of the Yang-Lee edge singularity and its significance in physics.

Cassini's mission revealed how its emissions affected Saturn's ionosphere.

Investigating how light affects liquid crystal polymers for soft robotics applications.

Study reveals how rotation affects magnetic fields in M dwarf stars.

A look at DRBEM and its applications in solving complex scientific equations.

Hafnia shows promise in electronics due to its unique ferroelectric properties.

Understanding how different fluids behave in porous materials.

This study reveals how ring polymers change as pressure affects their movement and structure.

Study of rectangle packing efficiency using random sequential adsorption method.

Researchers study how black hole energy affects star formation in galaxies.