Latest Articles for Boundary Conditions

A look at how entropy influences quantum particle interactions and entanglement.

A study of two elastic rods and a spring's behavior under various forces.

A look into the Casimir effect and its impact on branes in anti-de Sitter spacetime.

Exploring mathematical modeling for understanding systems across different scales.

Exploring higher-dimensional minimal surfaces through machine learning techniques.

This article discusses a self-adjoint momentum operator for particles in restricted areas.

Investigating real eigenvalues in non-Hermitian quantum systems reveals new insights.

Examining quantum field theory behavior within Anti-de Sitter space.

Exploring the behavior of electrolytes under non-equilibrium conditions and its implications.

Exploring the behavior and applications of quantum waveguides in technology.

Examining the impact of randomness on system behavior through parabolic Anderson models.

Examining the significance of elliptic and parabolic problems in mathematics and their applications.

A look into how gravitational waves behave in isolated astrophysical systems.

Exploring how boundaries affect quantum fields and particle interactions.

A new method streamlines complex integral calculations in particle interactions.

Exploring the Burgers equation in fluid dynamics and its applications.

This article explains the partial Bondi gauge and its role in gravitational physics.

A look into non-Hermitian quantum systems and their implications.

Examining the Stokes operator's impact on fluid flow in various domains.

A simplified look at light-cone quantization and its importance in particle physics.

Exploring the behavior of magnetic fields in thin layered environments.

An overview of boundary terms and their significance in gravity theories.

Recent improvements in LBM enhance fluid simulation accuracy and usability.

This article examines how inertia and slip influence liquid film stability on fibres.

A look at how ASEP helps study particle behavior in complex systems.

An overview of SPDEs and their real-world applications.

An insight into Navier-Stokes-Cahn-Hilliard equations for fluid dynamics and phase separation.

A new model aids in studying plasma detachment for safer fusion reactors.

A method to estimate blood flow parameters using advanced imaging data.

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.