Latest Articles for Condensed Matter Physics

Exploring the relationship between topology and superconductivity in condensed matter physics.

Exploring DMI's significance in magnetic materials and its applications in spintronics.

Study reveals new insights into magnetic states and quantum behaviors in systems.

Researchers investigate a unique state of matter with mixed superconducting and metallic properties.

Exploring the unique properties and applications of twisted bilayer graphene.

Examining Hubbard and Heisenberg models in condensed matter physics.

Research sheds light on quantum shock waves in one-dimensional Bose gases.

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

Research into copper oxides reveals insights about quasiparticles in magnetic fields.

New methods improve understanding of electron behavior in complex materials.

Exploring the impact of disorder on third-order topological Anderson insulators.

Research reveals unique properties of Fermi gases with adjusted interactions.

Ta-Hf alloys show promise in high-temperature superconductivity applications.

Exploring the fascinating properties and classifications of classical spin liquids.

Examining the impact of dissipation on topological phases and charge-ordering.

Exploring how particle loss affects quantum systems through the Liouvillian skin effect.

An overview of chiral transitions and their impact on quantum friction.

Exploring the magnetic properties of the Kagome lattice through quantum methods.

Researchers develop techniques to probe low-energy modes in fractional Chern insulators.

An overview of chiral magnons and their role in modern magnetic materials.

A look into Josephson junctions and their role in quantum systems.

An overview of gapped phases and their role in quantum field theories.

This study reveals how ring polymers change as pressure affects their movement and structure.

Research on chiral spin liquids in layered materials reveals new magnetic behaviors.

Research reveals unique electronic phases in topological insulators using light and magnetic doping.

Researchers reveal ordered phases in high-temperature superconductors, challenging existing theories.

An overview of quantum spin liquids and their unique properties in condensed matter physics.

Study on electron layers reveals impacts of distance on phase behavior.

GdPt B showcases unusual magnetic behaviors and the topological Hall effect.

DyTe's magnetic and electronic features promise advancements in electronics and spintronics.

Adjusting initial conditions changes how particles spread in integrable spin chains.

This article explores the transition from superfluid to supersolid states in dipolar Bose-Einstein condensates.

Researchers simulate multicritical Ising models using quantum electronic circuits to study phase transitions.

This article explores how chiral helical structures stabilize under pressure changes.

Exploring interactions and phases in quantum many-body systems.

Researchers propose a novel way to stabilize twisted bilayer graphene properties using chiral optical cavities.

Study reveals how temperature impacts phonon behaviors in bismuth vanadate.

Research reveals how pressure affects superconductivity in La Ni O material.

Researchers study how superconductors and antiferromagnets interact and their potential applications.

This study reveals how quantum fluctuations shape behaviors in two-component BECs.