Latest Articles for Condensed Matter Physics

Research highlights new methods to study vanadium dioxide's unique properties.

Investigating electron behavior in quantum Hall bilayers under strong magnetic fields.

Study of amplitude mode in disordered systems near superfluid-insulator transitions.

A look into how ARPES reveals electronic structure in various materials.

Research reveals insights into exciton-polariton condensates and their unique properties.

Study reveals how magnetization direction affects the properties of Co-based shandite CoSnS.

Study reveals how displaced Drude peaks reflect complex electron interactions in materials.

This study examines the impact of Yttrium on TmVO4's properties.

Research reveals how weakly interacting electrons can form dynamic states.

A look into adiabatic processes and their significance in quantum systems.

New insights into charge stripes and superfluidity in superconducting materials.

A study on non-Hermitian models reveals new insights into mobility edges.

Exploring topological phases, surface states, and their implications in modern physics.

A look into the dynamics of merging Bose-Einstein condensates and their implications.

Moire materials reveal unique quantum properties, expanding the horizons of modern physics.

This article examines the behaviors of Dirac semimetals under charge density waves.

A study on how disorder affects superconductivity in SrRuO3.

Researchers enhance stability of quantum systems using three-dot Kitaev chains.

An overview of quantum graphs, their structure, and eigenvalue significance.

Research reveals insights into surface states affected by spin-orbit coupling.

Study reveals effects of dissipation on Majorana particles in nanowire-superconductor setups.

Investigating unique properties of fractional quantum spin Hall insulators and their potential applications.

Examining position operators' role and challenges in quantum mechanics through matrix representations.

This article presents a graph theory approach to assess non-integrability in spin systems.

Exploring unique properties of magnetic Weyl-Kondo semimetals influenced by electron interactions.

Research reveals how interactions affect localization in Bose-Einstein condensates.

Exploring how dimensionality impacts Anderson localization in quantum systems.

Research reveals complex transitions between FQAH and charge density wave states.

Twisted bilayer graphene reveals unique electronic properties under pressure and twist angles.

Research on twisted bilayer graphene reveals unique electronic properties and potential applications.

Research reveals universal behavior in unitary Fermi gases using fictitious particles.

Explore key concepts and symmetries in two-dimensional Yang-Mills theory.

Researchers explore unique states of matter in graphene and their potential applications.

SmCoIn5 showcases intriguing electronic and magnetic properties due to electron interactions.

Examining nonlinear behaviors in three-dimensional materials under magnetic influence.

This article explores the impact of iron doping on the properties of Weyl semimetals.

Researchers study photon BEC responses to disturbances, revealing complex behaviors.

Exploring unique electronic properties at the BiSe and EuS interface.

An overview of gapped quantum phases and their unique properties.

Researching Haldane bilayers to advance quantum computing and non-Abelian anyons.