Latest Articles for Condensed Matter Physics

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.

This research links Weyl and chiral phonons, revealing new properties in tellurium crystals.

Research sheds light on the non-Hermitian skin effect in resonator systems.

How electromagnetic fields impact electron interactions and material properties.

Exploring the liquid and solid phases of multilayer graphene in magnetic fields.

Exploring thermalization processes and spectral dynamics in quantum systems.

Study reveals unique electronic states in bilayer graphene domain walls.

Research reveals new properties of zigzag Haldane nanoribbons and their unique topological states.

Research on 1T-VSe reveals insights into charge density waves and material properties.

Research advances in simulating spin chains using quantum computers.

This study examines the electronic properties of TaAs and TaP using NQR.

Research reveals how stacking disorder affects RuCl's magnetic and thermal properties.

A look into the unique properties of spin-orbit coupled quantum droplets.

A look into unique properties of non-Hermitian systems and their implications.

Researchers develop methods to clarify electrical signals in magnetic topological insulators.

Study reveals particle behavior in BaCo V O with magnetic field applications.

Exploring how information spreads in quantum systems through Quantum Reservoir Probing.

Research reveals complex behaviors of electrons and holes in layered materials.

Researchers analyze phase transitions in quantum systems through RG domain walls.

Examining collective behaviors of charged oscillators in a three-dimensional lattice.