Latest Articles for Simulation Techniques

A novel SPH approach improves simulation for plates and shells under deformation.

This research focuses on noise challenges in quantum computing and methods for effective simulations.

This article explores the Anderson-Holstein model and stochastic Schrödinger equations in quantum systems.

Exploring the methods to study hypersonic flows and gas-surface interactions.

Quantum measurement aids in simulating operations beyond classical limits, impacting computing and information processing.

Study reveals how resistivity affects turbulence in plasma, crucial for fusion energy.

A look at Monte Carlo methods in material science.

Studying local conservation laws in fluid dynamics through numerical methods.

A new method improves simulation of soft object interactions.

A new two-step approach enhances level-set method simulations of fluid interfaces.

New methods improve speed and accuracy in simulating materials.

CORSIKA 8 enhances simulations of cosmic ray showers with improved light modeling.

Exploring the differences between cgDNA and cgDNA+ in DNA mechanics studies.

This framework enhances large-scale network testing through efficient simulations and analysis.

Exploring the mysteries of supermassive black holes and their formation.

Examining how base stations collaborate for improved user service.

This study details the ejection of material in binary star systems.

Researchers use mixed reality to improve automotive testing across controlled and real environments.

Study reveals how shear stress influences grain formation in iron alloys.

Explore the key aspects of turbulent flow and its impact on engineering designs.

A new way to create simpler models from complex systems for better simulations.

Exploring the formation and dynamics of jets from black holes and neutron stars.

Learn how SMPC balances safety and performance in uncertain systems.

A simpler, effective approach to set timesteps in astrophysical simulations.

A look at how PARCv2 improves modeling of complex physical systems.

New method enhances binary neutron star merger simulations for better gravitational waveforms.

A new approach enhances multigrid methods for complex simulations with low quality cells.

A new method helps robots learn tasks using simulated data.

Researchers study hidden particles formed during high-energy particle interactions.

This study examines how sliders alter the behavior of grids made from elastic rods.

A new method improves dendritic growth tracking for better material performance.

Research highlights improved efficiency in aerospace design through multi-fidelity reduced-order models.

A new method improves quantum simulations, addressing chemical reaction complexities.

A new method to evaluate network strength against attacks.

Quantum walks blend quantum mechanics and graph theory, offering fresh insights and applications.

New methods improve the search for solid-state ion conductors in energy storage.

This article explores how light behaves near dust disks spinning in opposite directions.

Research improves accuracy of lattice thermal conductivity predictions using molecular dynamics and machine learning.

A new model improves agent performance in reinforcement learning tasks.

New techniques improve simulations of plasma wakefield acceleration for better particle control.