Latest Articles for Physics

Research highlights eco-friendly cooling solutions using magnetocaloric effect.

Researchers use simulations to investigate ion crystal behavior for quantum science.

Study reveals how magnetic particle interactions lead to synchronized movements.

Exploring the formation and properties of tetramers in ultracold molecules.

Research explores how Fano mirrors enhance ground-state cooling in optomechanical systems.

An overview of how quantum circuits simulate Hamiltonians for complex systems.

Learn about lattice walks and their applications in various fields.

Research highlights a new approach to understanding transition times in complex systems.

A study on transformers' capabilities in modeling simple harmonic oscillators.

Improving numerical methods for gradient flows with a modified Lagrange multiplier approach.

LENNs offer a new approach for modeling complex physical systems efficiently.

Research focuses on improving energy state preparation in quantum systems using control pulses.

Exploring wave interactions and their properties in quantum field theory.

Exploring the unique properties of banana nano-manifolds in geometry and number theory.

Discover how particles behave when moving between different mediums.

Researchers improve gold's conductivity by embedding silver nanoparticles, revealing new electrical behaviors.

This article examines magnetization and nutation in nanomagnets affected by surface anisotropy.

A new approach to reconstruct wave behavior using limited measurements.

Exploring the unique behaviors of supercooled water and its phase transitions.

Research reveals how tumbling enhances the movement of chiral particles in liquids.

New methods boost efficiency in analyzing experimental data in astroparticle physics.

Exploring the unique properties and uses of hexagonal materials in technology.

Study of two oscillators interacting within polygon shapes.

Examining how elastic waves lose energy based on material frequency.

Researchers study radiation patterns in special materials for potential technological advancements.

Investigating the unusual arrangements of lithium and sodium when cooled.

This article examines differential equations and their solutions on half-lines.

A specialized machine learning model improves particle data analysis efficiency and accuracy.

Explore the significance of random matrices in various fields and their eigenvalue behavior.

Exploring the role of frustrated magnets in advancing low-temperature refrigeration.

Study reveals new wave patterns in materials with changing properties.

New methods improve quantum control, overcoming challenges in managing complex systems.

Learn about baryon resonances and how GPDs reveal their secrets.

Study reveals effects of pressure on charge dynamics in MnBiTe and Mn(BiSb)Te.

This article examines how extra dimensions affect particle behavior on branes.

Examining chiral materials through topology provides insights into their behavior and properties.

A look into how heat spreads through non-linear equations and bubble configurations.

A look into measuring chirality and its impact on crystalline materials.

This study examines how electric fields affect Landau levels in graphene ribbons.

This study explores the existence of multiple weak solutions in mixed local-nonlocal elliptic equations.