Latest Articles for Condensed Matter Physics

This article examines the lattice approach to Chern-Simons theory and its implications.

This study reveals how pressure influences Berry curvature and electrical properties in materials.

Exploring the chaos of vortices in quantum fluids.

Researchers uncover unique electronic properties of twisted bilayer graphene.

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

Researchers explore complex behaviors of topological phases and their potential in quantum computing.

Examining how pair-flip constraints slow thermalization in particle systems.

Exploring the role of van Hove singularities in graphene's electronic properties.

Researchers study excitons in layered materials for advanced quantum technologies.

Investigating how missing atoms affect electronic properties in 2D materials.

Kagome superconductors show unique behaviors in low-temperature conductivity and electron pairing.

Exploring advanced materials with unique electronic properties and their potential applications.

Scientists investigate unique properties of ultracold gases and their implications for quantum mechanics.

Twisted bilayer graphene reveals unique electronic states and behaviors under magnetic fields.

Research advances understanding of ultracold gases and unique superfluid states.

Research reveals low-energy transitions in CeAgGe linked to crystal electric fields.

Examining the role of FM string order parameter in topological phase transitions.

Explore the significance of U(1) symmetries and spontaneous symmetry breaking in physics.

Investigating unique behaviors of quantum systems through Bose-Einstein condensates and nanomechanics.

Exploring interactions in one-dimensional quantum systems and their implications.

A novel method for achieving topological superconductivity using magnetic barriers in Josephson junctions.

A look into unusual electronic behaviors near density wave orders.

Exploring the unique superconducting properties of twisted bilayer graphene.

Majorana zero modes hold promise for quantum computing and unique properties in superconductors.

A look into the behavior of interacting quantum systems and their applications.

Investigating how magnetic impurities influence superconducting behavior and quantum effects.

Exploring the interaction between disorder and topological properties in materials.

New insights into fractional Chern insulators in twisted bilayer graphene and TMDs.

Examining how specific interactions affect quantum behavior in harmonic oscillators.

Scientists study the anti-Pfaffian state using quantum point contact techniques.

An overview of fermion-soliton scattering and its implications in theoretical physics.

A look into the behavior of spin liquids and orphan spins in magnetic materials.

Exploring the unique electronic behaviors of the superconductor RbBi.

Researchers explore non-Abelian anyons and their implications in quantum computing.

Exploring the link between quantum entanglement and topological phases in materials.

Study reveals how impurities alter edge states in topological materials.

Study reveals strong link between AHE and spin chirality in EuZnSb.

A new phase of matter shows unique behavior in layered materials.

Exploring Majorana fermions in topological superconductors for future quantum computing.

Exploring the impact of kagome lattices on quantum anomalous Hall effects.