Latest Articles for Physics

Research focuses on using multi-laser beams to study plasma magnetic fields.

An overview of Feynman diagrams and their role in quantum field theory.

Discover how light influences magnetization in Rydberg atoms and doped semiconductors.

Miura-folded metamaterials offer innovative solutions for wave manipulation across various fields.

Research into polaritons reveals insights into light and matter interactions.

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

Research reveals electronic properties of twisted MoSe2 and WSe2 lattices.

Researchers have developed a new positron beam setup for material studies.

Exploring magnetic domain walls and skyrmions for future memory technologies.

This article discusses methods and biases in estimating galaxy cluster masses.

New approaches improve light diffraction simulations with tensor train decomposition.

A look into the unique magnetic behaviors of kagome magnets.

This study investigates how rods behave on strips through the grand partition function.

New methods improve Lyapunov exponent calculations, aiding chaos analysis.

An overview of quantum walks and their significance in quantum mechanics.

Examining how shapes roll on surfaces without slipping and their implications.

An overview of stochastic measures, their properties, and applications in various fields.

New techniques streamline the detection and analysis of gravitational wave signals.

Exploring how dark energy influences the motion of celestial bodies in space.

Altermagnets offer insights into spintronics through unique conductivity and N eel vector properties.

Research on black bounces sheds light on black hole structure and behavior.

Exploring the significance of charge transfer energy in specific correlated materials.

A study examines ways to develop communication skills among physics students.

Research confirms conservation of angular momentum in light at the single-photon level.

Researchers develop laser techniques to create and study electron-positron plasma.

Exploring how KANs improve solutions for optimal control challenges across various fields.

Investigating dark particles through proton collisions offers insights into dark matter.

Examining electric current behavior in two-dimensional fermionic systems and their future technological impacts.

HAYSTAC continues its quest to find elusive dark matter axions with new results.

Investigating light-matter interactions and their effects on chemical reactions.

A new method offers deeper insights into how light interacts with materials.

Gravitational waves provide insights into cosmic events and the nature of gravity.

A concise overview of hypersurfaces and their significance in geometry and physics.

This article discusses higher spin representations in Kac-Moody algebras and their significance.

Researchers develop a technique to control the movement of levitated particles with high precision.

A look into the least action principle and its role in physics.

A novel approach combines domain decomposition and artificial neural networks for complex problem solving.

Exploring behavior of particles in many-body systems through density of states.

Investigating how diverse oscillators synchronize and the impact of their differences.

Study reveals how impurities impact nucleation in materials.