Latest Articles for Condensed Matter Physics

Research reveals unique behaviors of charge and spin density waves in bilayer graphene.

Research explores superconducting properties of 2-NbS under magnetic fields.

Researchers advance understanding of LaNiO's superconducting behavior under pressure.

A new method enhances the study of complex quantum behaviors.

This article reviews the unique properties of MnSn and MnGe antiferromagnets.

Scientists study fractonic matter using Rydberg atoms to explore unique phase transitions.

Exploring hedgehog and antihedgehog states in unique magnetic materials.

This article examines fractional quantum Hall states and their implications.

Examining unique properties and behaviors of topological phases in materials.

This study examines the unique Fermi surface properties of the material CoSi.

Explore how partition functions shape our view of particle systems at high temperatures.

A deep dive into the Sinh-Gordon model and its implications in quantum field theories.

Researchers combine techniques to improve studies of quantum systems and electronic structures.

Research on twisted bilayer BaTiO reveals unique electronic properties for advanced applications.

Research highlights new quantum states in non-standard Bose-Hubbard models with long-range interactions.

An overview of free fermions and their importance in physics.

Research on tunable materials enhances the study of Berry physics and its applications.

This study reveals essential properties of quantum antiferromagnets and their potential applications.

This article examines how curved spaces affect charged scalar fields and vacuum currents.

Research explores electronic behaviors in twisted bilayer MoTe, revealing new quantum states.

Investigating the formation and stability of fractional Chern insulators in novel materials.

Investigating the unique electronic behaviors of twisted bilayer WTe under different conditions.

A look into the unique state where gases behave like solids.

Explore the significance of fermionic systems in quantum physics and their unique properties.

Research reveals complex electron behavior in next-nearest neighbor SSHH model.

Research reveals how phonon interactions shape magnetic properties in unique materials.

Research reveals unique properties of twisted bilayer MoTe materials.

Research reveals connections between charge density waves and Kramers nodal lines in materials.

Discover how many-body localization challenges traditional thermalization concepts in quantum physics.

Research explores electron behavior changes in stacked 2D materials at low temperatures.

Study reveals impact of impurities on thermal Hall effect in Weyl superconductors.

Researchers manipulate optical lattices to study topological properties for future technologies.

New studies challenge the magnetic behavior of RuO2, suggesting it lacks long-range order.

Study highlights methods for fast transport and splitting of spin-1 BECs.

Researchers investigate exciton condensates in double-bilayer graphene under varying conditions.

Research reveals unique behaviors of fermionic impurities in quantum droplet systems.

Research reveals unique behaviors in FQH states under light influence.

Research delves into Fibonacci quasicrystals and their role in topological superconductivity.

An overview of Chern insulators, vortex functions, and their electronic behaviors.

An overview of the fascinating dynamics and phases in the spin-1 Kitaev chain.