Latest Articles for Physics

Multi-fidelity modeling optimizes simulation accuracy while reducing computational expenses.

Exploring the unique properties and applications of magnetic skyrmions in technology.

A new method streamlines quantum simulations using fewer resources and qubits.

Study reveals how coupling affects localization in quasiperiodic systems.

Exploring the effects of magnetism on electrical and thermal properties.

A look into how curvature is calculated in discrete gravity and its applications.

Exploring the role of quantum fluctuations in relativistic Bose-Einstein condensation.

New insights into current flow in vacuum diodes enhance electronic device design.

Researchers improve detector efficiency for dark matter and rare event studies using new technology.

This article examines how pressure alters the behavior of FeGe's charge density wave.

This article discusses the role of error correction in quantum computing using neutral atoms.

An overview of superconductivity and its unique properties.

New interferometer design enhances light measurement precision and flexibility.

Explore how fast-moving objects appear differently due to the Terrell effect.

Study reveals how obstacles impact particle speed and behavior over time.

Research reveals how static friction varies with multiple contact points.

Discover how chemical signals shape collective movement for effective searching.

Researchers study twisted bilayers to explore unique material behaviors.

Mott materials exhibit unique behaviors, bridging the gap between insulators and metals.

Examining how laser light behaves in dense atomic gases reveals surprising outcomes.

Study reveals how activity affects clustering in active Brownian particle systems.

A look into pentaquarks and their significance in understanding fundamental forces.

A look into how thin plates behave under various loads.

AgSnSe shows promise in superconductivity and topological characteristics.

Research explores the superconducting diode effect using -RuCl and NbSe materials.

Research into classical spin liquids and their behavior through the four-color Kitaev model.

Exploring the unique optical responses of twisted trilayer graphene structures.

A look into methods for counting positive solutions in polynomial equations.

New research highlights mathematical identities in turbulent flows.

Discover the significance of N eel walls in magnetic materials and their applications.

A new method offers efficient solutions for integral equations using neural networks.

A simplified approach to compute Wannier functions improves material research.

A novel approach to calculating movements of particles in three-dimensional fluids.

Research focuses on spin-triplet superconductivity's potential for future technology applications.

A clear look at the interplay between uncertainty principles and spacetime.

Exploring superconductivity in materials with complex band structures.

Exploring the behavior and interactions of vortices within two-dimensional supersolids.

This theory connects particle dynamics and geometry, providing insights into quantum field theories.

Exploring free circle actions and their implications on connected manifolds.

A new method improves magnetic imaging, enabling better visibility of magnetic properties.