Latest Articles for Condensed Matter Physics

Research reveals how bilayer graphene reacts to periodic driving forces, leading to dynamical freezing.

Study reveals surprising behaviors in lightly doped 6-layered BaCaCuO superconductors.

Investigating how spin-orbit coupling influences electrons in two-dimensional materials.

Research reveals key aspects of exciton condensation in bilayer systems.

Combining quantum techniques with VMC for improved accuracy and speed.

New methods enhance understanding of excited states in quantum systems.

Research reveals critical electronic structures in GdRuSi for future technology.

Study examines phase transitions in XXZ spin chains influenced by local baths.

Research reveals a new phase of superfluidity in topological bosons within unique band structures.

Explore the behavior of bosons and their fascinating phase transitions in quantum mechanics.

A study on the anomalous Hall effect in unique materials.

Investigating the influence of boundary conditions on deformed superspin chains and their behaviors.

A look into the factors influencing metal-insulator transitions in materials.

Research reveals how impurities enhance temperature measurement in ultracold fermionic gases.

Investigating the relationship between quantum metrics and Drude weight in bosonic materials.

A look into the unique triple-Q state in layered materials.

Researchers explore unique properties of hyperbolic non-Abelian semimetals and their implications.

New insights into 4Hb-TaS reveal unique interactions between magnetism and superconductivity.

A new model enhances the understanding of quantum diffusion.

TiSe displays unique phase transitions and electronic properties relevant for advanced technologies.

This study examines charge behavior in ScV Sn under changing temperatures and doping.

Researchers use light to influence phonon behavior in graphene, enhancing its properties.

This article examines the energy levels and behavior of quasi-periodic spin chains.

Study reveals unique interactions between magnetism and superconductivity in tin on silicon.

Exploring the fascinating behavior of phase separation in spin-orbit coupled Bose-Einstein condensates.

This study examines the creation of random potentials through dark states in ultracold atoms.

This article explores U(1) Dirac spin liquids and the effects of lattice distortions on stability.

A new algorithm enhances understanding of spin arrangements in materials.

Examining how particles gain mass without breaking symmetries.

Investigating how disorder and coupling affect particle behavior in quantum mechanics.

Research highlights how effective mass changes with coupling in polarons.

A look into the unique properties of twisted bilayer graphene and its superconductivity.

Exploring the unique properties and potentials of kagome superconductors in condensed matter physics.

Exploring local topological order and its implications for quantum systems.

Study reveals complex behaviors in transition metal dichalcogenides and charge density waves.

Research demonstrates efficient transport of ultracold cesium and rubidium atoms.

Examining rapid changes in magnetic properties of Heisenberg spin ladders.

Research reveals how interactions in STO arrays affect oscillation behaviors.

New research supports existence of charge density waves in infinite-layer nickelates.

Examining how charge fluctuations affect the properties of rare earth materials.