Latest Articles for Condensed Matter Physics

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.

A study on frustrated ladders reveals complex spin interactions and their behaviors.

EuInAs shows promise for unique electronic properties and applications.

Thin films of YIrO exhibit new magnetic behaviors at reduced dimensions.

Study reveals unique phonon behaviors at electronic boundaries in materials.

This article explores the extended Bose-Hubbard model and its implications in one-dimensional systems.

Research reveals important aspects of topological phases and their impact on quantum technologies.

Study reveals magnetic phase diagram and significance of skyrmions.

This research examines phases of fermionic matter influenced by interactions at finite temperature and density.

A closer look at Kelvin-Helmholtz instability in superfluid helium and its unique behaviors.

Study reveals how light affects the electronic state of ZrTe.

Exploring how density changes create shock waves in quantum gases.

New GdOsSi material exhibits charge density wave at room temperature.

Examining Fermi liquids near critical points reveals complex interactions and new dynamics.

Examining the role of non-Abelian anyons in future quantum technologies.

Exploring how 1D patterns impact the electronic behavior of the Lieb lattice.

Research reveals a stable fixed point in disordered two-dimensional metals.

Research reveals complex behaviors of ultracold atoms in optical lattices.

Examining thermal behavior in spin chains through entangled antipodal pair states.

Research reveals unique interactions between bismuth bilayers and magnetic materials.

Recent findings on MoTe challenge existing theories in condensed matter physics.

Study reveals how magnetic order affects electron and phonon behavior in MnBiTe.

Research reveals new methods for achieving the Moore-Read state in twisted materials.

Examining the unique properties and transitions of quantum spin liquids in materials.

Research reveals key insights into metal-insulator transitions using cold atom systems.

Analyzing how noise affects topological orders and their potential in quantum technology.

Examining unique properties and behaviors of supersolids in material science.

Research explores unique arrangements of dipolar atoms in multilayer setups.

New model sheds light on unique properties of twisted transition metal dichalcogenides.