Latest Articles for Condensed Matter Physics

Exploring the effects of non-Hermiticity in twisted bilayer graphene's electronic properties.

This article examines the unique features of driven systems and their topological characteristics.

Research extends the equation of state for ultracold Bose gases beyond traditional models.

This article explores the relationship between Dirac semimetals and their superconducting states.

Research focuses on YbOCl's magnetic behavior and interactions at low temperatures.

Discover the unique structures and properties of kagome metals like V Sb.

Study of CeRhIn's magnetic behavior at low temperatures and under magnetic fields.

Explore the unique phases and properties of graphene under strong magnetic fields.

This study examines how particle collisions impact spin polarization in quantum mechanics.

Exploring how perovskite superlattices behave under different conditions.

La Ni O shows promise as a superconductor at high temperatures under pressure.

Study reveals how disorder affects unique electrical properties of special materials.

Study of phase interactions affecting droplet behavior in materials.

This study examines multifractal statistics in non-Hermitian systems utilizing Cayley trees.

Research reveals surprising changes in electrical behavior of pentalayer graphene.

Isotopic disorder significantly impacts electron movement in materials, leading to unique scattering behaviors.

This study reveals unique thermal behavior of ZrW2O8 and its phonon modes.

This study examines how impurities impact vortex lattices in rotating Bose-Einstein condensates.

Study reveals the importance of longer-range interactions in graphene's unique phases.

Investigating how impurities affect magnetic properties in Kitaev materials under strong magnetic fields.

Researchers offer a new way to measure topological entanglement efficiently.

An exploration of cold Bose gases and their unique behaviors at low temperatures.

A study on color superconductivity and its effects on quark matter.

Examining the role of impurities in quantum systems through novel approaches.

A look into the behaviors of jammed solids and their glass transition.

A look into self-duality defects and fusion categories in modern physics.

UTe2 shows potential as a spin-triplet superconductor with unique magnetic properties.

A study of phase transitions in dimerized spin chains reveals complex quantum behavior.

Exploring the link between charge pumps and quantum criticality in materials.

This article explores how different defects behave under various conditions in field theories.

Exploring the complexities of spin glasses and their energy landscape.

A look into quantum oscillations and their impact on metal properties.

Examining how heavy impurities influence light particles in a quantum state.

Researchers leverage quantum computing to study electron interactions in materials.

Delve into the complex behavior of spin liquids and their magnetic properties.

Exploring the unique electronic properties of multilayer graphene and their implications.

Research into specific heat reveals insights about superconducting cuprates.

A look at how Dirac bilinears influence material behaviors and functionalities.

Researchers investigate multi-gap topological phases using quantum rotors under periodic driving.

Exploring nonlocal moments and their effects on twisted bilayer graphene's electronic properties.