Latest Articles for Simulation Techniques

A study of shock waves and their evolving interfaces in mathematical physics.

A new wall-model improves turbulent flow predictions with reduced computational costs.

Using lattice Boltzmann method to explore behavior of ellipsoidal particles in fluids.

FLASH offers efficient analysis of material responses to oscillatory shear flow.

A study on nonequilibrium phase transitions in a 2D ferromagnetic system using simulations.

A new approach improves deep learning simulation in hardware design.

A new model enhances simulation efficiency in soft matter research.

Research reveals how laser pulse shape affects electron deflection.

This study explores machine learning methods for classifying different types of networks.

A new model enhances simulations in fluid dynamics, benefiting multiple industries.

New methods combine tensor networks and stabilizer states for improved quantum simulations.

BHAC-QGP simulation tool enhances understanding of heavy-ion collisions and quark-gluon plasma.

Hybrid DFT methods enhance accuracy and efficiency for studying complex systems in chemistry.

New techniques enhance fluid flow simulations for engineers and scientists.

New simulation approach using learning agents reflects real market dynamics.

Researchers analyze charge and baryon balance functions in proton-proton collisions.

A method to simplify Clifford+T quantum circuits for better simulations.

Advancing methods for better modeling of fluid shocks in high-speed flows.

Enhancing control strategies for systems while avoiding obstacles.

A new method improves how we simulate particle interactions in materials science.

New techniques enhance our understanding of dislocation behavior in materials.

Combining two techniques to improve risk assessment in complex systems.

Learn how backward error analysis enhances the Newmark method for better accuracy.

Introducing a novel approach to simulating particles in plasma environments using the Particle-in-Fourier scheme.

An overview of meshfree simulations and their integration with machine learning for improved results.

This study reveals how sCRNs mimic other computational models.

New models improve aerial robots' handling of flexible cables.

Analyzing the behavior of three inelastic particles during repeated collisions.

A look at periodic Hamiltonians and their significance in quantum physics.

A look into new methods for understanding galaxy structures in the universe.

New methods improve accuracy in predicting gravitational waves from black hole systems.

New method improves analysis of delamination in aerospace composite materials.

A new method enhances SPH performance by optimizing kernel usage.

Researchers enhance galaxy clustering data using a novel approach called CARPool.

Study reveals Goldilocks QCA can simulate free fermions efficiently.

A new method enhances DAE regularization techniques for better efficiency and accuracy.

A new method for better control of rigid body interactions during collisions.

This article discusses liquid crystals' role in guiding tiny particles in microfluidic systems.

A new method improves robot training using real-world data.

New methods improve fluid behavior simulation for various applications.