Latest Articles for Numerical Methods

Researchers use MeshGraphNets to improve fluid dynamics simulations efficiently.

A new method improves fluid flow simulation in porous materials efficiently.

This study enhances American option pricing using Piecewise Diffusion Markov Processes.

Innovative techniques for simulating open quantum systems using the Lindblad equation.

Learn how decoupling simplifies solving complex evolution equations.

A novel approach to handle dynamic boundary conditions in wave equations.

A new approach for simulating non-interacting particle dynamics effectively.

Explore how age-structured models reveal insights into population and disease growth.

Examining particle behavior through the anharmonic oscillator model in quantum mechanics.

A look at how mixed FEM aids in studying poroelastic materials.

New techniques improve light simulation in advanced materials with complex structures.

This study examines how collapsing vapor bubbles affect nearby solid materials.

This article discusses new methods for solving the inverse medium problem with neural networks.

This article explores the behavior and stability of traveling waves in various systems.

A look at participation factors and their role in nonlinear system analysis.

This article discusses a new method for improved simulations in magnetohydrodynamics.

Exploring the adaptive mesh refinement framework in astrophysical simulations.

A new approach to understanding behavior in complicated systems using deformed statistics.

This article discusses the significance of DDEs and FDEs in modeling dynamic systems.

This article discusses two-fluid plasma flow and numerical methods for simulation.

A look into multiphase flows and the techniques used to model them.

Exploring the stability of shock profiles in conservation laws using numerical methods.

Explore numerical methods for solving the Hunter-Saxton equation and their accuracy.

A detailed study on numerical methods for wave equations.

A concise look at Burgers' equation and its significance in fluid behavior.

Research reveals insights on fire dynamics in fuel-bearing materials with injected air.

Exploring numerical solutions for differential equations through spline functions and integral techniques.

Learn how past events influence unpredictable systems in engineering.

incompressibleFoam offers innovative solutions for simulating fluid flows accurately.

Exploring techniques and methods in understanding particle interactions at critical points.

Explore the role of UPOs in chaotic systems and their impact on prediction.

Researchers use machine learning for faster solutions to Kepler's Equation.

A look into controlling systems with parabolic partial differential equations.

A look into Hermite polynomials and their integration in physics.

Using electrolysers can help integrate renewable energy sources effectively.

Explore how fractional diffusion equations explain complex particle movements.

Discover how light behaves in materials and its real-world impact.

Discover the complexities of hyperbolic systems and their impacts on real-world phenomena.

New studies reveal insights on Jupiter's core formation and the effects of impacts.

Discover the latest advancements in thin film technology and numerical methods.