Latest Articles for Physics

Explore the fascinating properties of massless fermions and their interaction with magnetic fields.

Exploring how tiny particles influence larger systems through quantum jamming.

This article examines the superconducting properties of LaNiO3 under pressure.

New methods reveal insights into topological materials through microwave light interactions.

A look into why black holes don't exist in three-dimensional gravity.

A study on dislocation skin effects and topological properties in non-Hermitian materials.

Discover unique properties of lattices influenced by imaginary magnetic fields.

Examining the connections between integrable systems and random matrices in physics and mathematics.

Gravitational waves reveal cosmic events and offer insights into fundamental physics.

DiTTO combines machine learning with diffusion models for solving PDEs efficiently.

This article discusses the design and application of plasma metamaterials in technology.

Scientists investigate axions and their detection using sensitive Josephson junctions.

Exploring Majorana bound states' potential in quantum computing and superconductivity.

Learn how exceptional points influence light behavior in optical dimers.

Study reveals stability and electronic features of CPA monolayers with potential applications.

Examining single particle production at forward rapidities in high-energy collisions.

Investigating how light affects molecular behavior in optical cavities.

Dark photons could reshape our understanding of light and the cosmos.

Scientists study particle collisions to search for hidden particles and new physics.

This study simplifies how linked oscillators behave through phase reduction and higher-order interactions.

Research investigates the stability of Kaluza-Klein spacetime under small disturbances.

Exploring the relationship between off-center circular orbits and magnetic monopoles.

A look into field theory and its role in physics.

A look into the Haydys-Witten equations and their role in geometry and physics.

Exploring how randomness affects movement in Beta random walks.

This article explores how non-intersecting random clusters behave under specific conditions.

LZ experiment aims to detect dark matter through low-energy electron recoils.

Examining the interactions between materials under various forces.

Exploring how point arrangements impact energy stability in lattice systems.

Exploring Monge solutions and the role of geometry in Hamilton-Jacobi equations.

Inverse problems help extract unknown information from limited data across various fields.

Exploring methods for effective wave manipulation in various applications.

A new approach sheds light on bullet-block impact dynamics.

This study examines how objects move on accelerating surfaces with varying friction.

Research on CoSn thin films reveals insights into flat band physics.

Examining the Pyramid Scheme model's implications for particle physics and dark matter.

Explore how cell density impacts movement and organization in active matter systems.

A novel superconductor found in La Ni O shows potential for high temperature conductivity.

Examining the role of cut locus and geodesics in Finsler geometry.

Researchers investigate high-pressure superconductors for practical applications in energy.