Latest Articles for Condensed Matter Physics

This article explores the significance of spin chains and their properties.

This article examines how laser light affects Mott insulators’ charge and magnetic properties.

This article explores the relationship between Yang-Lee zeros and quantum phase transitions.

Research reveals NiPS3's behavior as a Mott-Hubbard insulator.

Discover the unique properties and potential applications of Weyl semimetals.

Research reveals how acoustic waves affect valley states in quantum materials.

New methods improve efficiency in evaluating complex quantum interactions.

This article examines the unique magnetic properties of heavy-fermion metals.

A look into the unusual behavior of neutron stars and their rotation glitches.

A deep dive into how Quantum Hall systems help understand Hawking radiation.

A study on the electronic properties and potential applications of NiPS₃.

Exploring the potential of antiferromagnetic topological insulators in advanced electronics.

Study explores spin-phonon coupling in a unique double perovskite material.

Research reveals key behaviors of twisted bilayer WSe related to superconductivity and insulation.

YbI shows remarkable magnetic behavior due to its special atomic structure.

Research reveals key phonon contributions to superconductivity in twisted bilayer graphene.

An overview of bosonic droplets and their unique properties in quantum physics.

Investigating electron interactions in Weyl semimetals and their impact on neighboring materials.

Insights into magnetic behaviors and electronic interactions in EuSn(As,P).

Understanding quasiparticle interference reveals unique properties of Kitaev quantum spin liquids.

Research on higher-order topological phases reveals new insights into quantum materials.

Study reveals how atom density and connections impact superfluid behavior.

Examining the interaction of vortices in dipolar superfluids and their implications.

Collective transition quenching improves control over quantum systems for various applications.

Scientists study how disorder affects thermalization in trapped bosonic atoms.

Machine learning techniques enhance understanding of quantum systems and phase transitions.

Examining edge modes in quantum Hall systems to reveal unique topological properties.

This article examines how temperature influences the Hall coefficient in various materials.

Investigating altermagnetism in heavy fermion systems reveals potential for advanced spintronic applications.

An analysis of phase transitions in the clock model using mean-field theory.

Investigating boson behavior in a double-well potential reveals insights into classical and quantum physics.

DyTe's tellurium vacancies influence its electrical behavior and potential in electronics.

A look at NMR techniques for studying spin-3/2 nuclei in materials.

Study explores how Bose gas can exhibit anyonic properties through gauge field introduction.

Examining the interactions of quantum rotors within Bose-Einstein condensates.

A look into SrCuTeWO and its unique nonmagnetic properties.

TbBO reveals secrets of spin liquids and their potential in quantum technology.

Exploring the unique properties of Carrollian fluids in theoretical physics.

This research examines the shift from strong to weak symmetry in fluids.

Examining how charge carriers reveal properties of quantum spin liquids.