Latest Articles for Condensed Matter Physics

Investigating the link between magnetic materials and elusive dark matter particles.

Exploring entanglement entropy and its significance in quantum mechanics.

A study reveals the melting behavior of the 1/3 plateau and its implications.

A look into isospin QCD's role in dense matter and neutron stars.

This article discusses ultracold atoms and their interaction with Bose-Einstein condensates.

Exploring charge conjugation symmetry's role in lattice gauge theories and fundamental forces.

Exploring the behaviors of confined spins in quantum systems.

A look into spin chains, Bethe roots, and their significance in physics.

A look into the importance of bosonic quasiparticles in quantum physics.

Research reveals insights into superconductors and insulators in twisted bilayer TMD materials.

Research reveals complexities of deconfined quantum critical points in materials.

Chern-Simons theories provide insights into particle interactions and mass generation mechanisms.

NV centers provide insights into materials' properties through non-invasive measurements.

Research on fractional quantum spin Hall effect in novel materials reveals new electronic states.

Introducing eMBEX, a method for studying interactions in materials more accurately.

Research investigates unique electron behavior in chiral spin liquids influenced by magnetic fields.

Exploring new electronic properties of moiré materials and Chern texture insulators.

A look into phase transitions and their dynamics using holographic models.

SmB and YbB challenge traditional views on conductivity and insulation.

This study examines how germanium alters the properties of magnetic topological insulators.

An exploration of the Planckian metal phase in cuprate superconductors.

This article examines the relationship between holography and RG flow in quantum physics.

This article examines how temperature impacts magnetic properties in quasi-2D triangular antiferromagnets.

Study reveals intriguing magnetic properties of BaNbIrO, a new quantum spin liquid.

Researchers study unique phase transitions in complex materials with potential technological applications.

This study examines hole behavior in honeycomb lattices using the t-J model.

Exploring the electronic behaviors and potential applications of Kagome metals.

Exploring local changes in quantum systems and their impact on energy spectra.

Research reveals new structures in twisted bilayer-trilayer graphene with unique electronic properties.

This study reveals new phases in higher-order topological insulators through quasiperiodic modulation.

Research explores how strain affects magnetic monopoles in classical spin ice.

1T-TaS2 showcases remarkable electronic properties, potentially useful in advanced technology.

Study reveals properties of BaIrGe, a promising superconducting material.

Exploring the complexities of high-temperature superconductivity in copper oxide materials.

Exploring charge interactions and phases in one-dimensional lattice gauge theory.

Study reveals phonon dynamics in disordered Kitaev spin liquids with temperature effects.

This article examines quantum phase transitions within zig-zag ladder models.

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.