Latest Articles for Boundary Conditions

This study examines the influence of viscosity on Faraday waves in confined liquids.

New methods improve modeling of solar sound waves while saving computational resources.

New methods in seismic imaging enhance subsurface mapping accuracy and efficiency.

Discover how mathematical models explain phase transitions in materials and biological systems.

New methods improve simulations of liquid behaviors on surfaces using PFEM.

An overview of two key quantum systems and their connections.

A new method for solving complex elliptic equations using ghost points.

A new method enhances quantum computing's role in solving Partial Differential Equations.

Discover how spinor fields behave under specific boundary conditions in quantum field theory.

An overview of quantum graphs, their structure, and eigenvalue significance.

Learn how PINNs combine deep learning with physics for efficient problem-solving.

Enhancing image quality through effective deblurring methods and mathematical models.

Introducing a method to simplify boundary condition calculations for the Schrödinger equation.

A look into advanced simulation techniques for supersonic jets in aerospace engineering.

Recent studies shed light on the properties and behaviors of compact celestial bodies.

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

Explore how wave scattering shapes technology and scientific research.

Exploring electromagnetic fields in infinite solenoids with time-dependent currents.

Explore how the Gierer-Meinhardt model explains pattern formation in living organisms.

Learn how defects shape the behavior of planar nematics and their applications.

New methods improve fluid behavior simulation for various applications.

Exploring edge states in optical lattices and their implications for quantum technologies.

A look into how changing boundaries affect fluid behavior.

A new method enhances accuracy in simulating unbounded fluid flows.

This article examines gas behavior when interacting with solid surfaces.

A look into skyrmion stability influenced by size and radial stresses.

A look into how thin films behave under various forces.

This article examines particle movement in confined systems and its implications.

This article presents a novel approach to thermodynamic potentials in Lanczos-Lovelock gravity theories.

A new MPM implementation improves gas flow simulations significantly.

Exploring the relationships between particles and fields in theoretical physics.

Introducing a simple approach for solving complex physical systems over time and space.

Explore forced magnetic reconnection and Alfven resonance in magnetized plasmas.

Stagger Code enhances modeling of fluid behaviors in astrophysics through simulations.

Study explores conditions for circular rolls in rotor-stator flow dynamics.

This article examines axion-saxion wormholes and their stability in theoretical physics.

A new approach reduces diffusion effects at boundaries in fluid studies.

This study examines how thin layers affect heat transfer in materials.

Exploring how patterns like stripes and spots form in living organisms.

New methods improve particle simulation in restricted environments.