Latest Articles for Condensed Matter

New insights into phase transitions and slow dynamics of frustrated magnets.

Study reveals complex behaviors in dimerized magnetic chains with valence bond solids.

This study focuses on travelling wave solutions in the nonlinear Schrödinger equation.

Research on behaviors and transitions of Fermi superfluids influenced by spin-orbit coupling.

Study reveals how impurities behave in a tilted lattice of particles.

Research reveals YbCu's potential as a 2D heavy fermion material.

Examining how disorder and electron interactions influence relaxation dynamics in materials.

Researchers investigate mobility edges in novel quasiperiodic mosaic lattices.

Exploring the link between magnetic order and superconductivity, focusing on Kramers' states.

Researchers study how cold atomic gases behave under different conditions.

Examining KPZ scaling behaviors in the Hubbard model's charge and spin transport.

Exploring quantum critical points and their impact on phase transitions in materials.

A look at how topological phases behave and their significance in quantum systems.

Scientists investigate unusual properties of heavy fermions and their effects on magnetization.

A study on complex properties of three-dimensional topological orders using Fourier transforms.

This study investigates the role of pair-hopping interactions in Anderson insulators.

Research links axion dark matter to unique behaviors in quantum Hall systems.

Study reveals interactions in superconducting bilayers and their effects on electron pairing.

Investigating how structure influences magnetism in one-dimensional and two-dimensional systems.

Exploring how particles behave in random environments through dynamical localization.

A look into the Hubbard model's impact on electron behavior in materials.

Exploring how phase transitions relate to atomic arrangements and elasticity in materials.

Researchers use engineered baths to stabilize topological insulators in quantum systems.

Researchers study a unique quantum state using spinor Bose gases.

Exploring the effects of symmetry breaking in electron systems.

Study reveals effects of interactions on particle flow in a Bose-Hubbard chain.

Exploring how quenching affects defect formation in materials during phase transitions.

Exploring the unusual electrical properties of strange metals in kagome lattices.

Scientists reveal unique electron states in materials with helical magnetic fields.

Examining how tunable parameters affect particle mobility in quasiperiodic lattice systems.

Line defects in 2D TIs disrupt edge states and conductance, revealing new pathways for electron flow.

Study reveals how energy loss impacts the behavior of spin-chains in quantum materials.

Investigating the relationship between quantum geometry and superconductivity in oxide interfaces.

Explore the fascinating properties of massless fermions and their interaction with magnetic fields.

New methods reveal insights into topological materials through microwave light interactions.

Discover unique properties of lattices influenced by imaginary magnetic fields.

Research on CoSn thin films reveals insights into flat band physics.

Research reveals intriguing behaviors of exciton-polariton condensates influenced by external factors.

Exploring the intricacies of quantum phase transitions and local fidelity measures.

Researchers aim to achieve superconductivity at high temperatures through Mott localization.