Physics - Strongly Correlated Electrons

An overview of Chern insulators, vortex functions, and their electronic behaviors.

An overview of the fascinating dynamics and phases in the spin-1 Kitaev chain.

Research reveals new properties of magnons and their potential technological uses.

An overview of quantum energy and information teleportation concepts in physics.

Exploring the unique properties and applications of WTe semimetal under magnetic fields.

Investigating long-range order breakdown in quantum antiferromagnets at zero temperature.

Researchers develop quantum methods to tackle complex many-body systems.

New technique exposes elusive quadrupolar excitations in quantum systems.

An overview of quantum spin systems and their significance in science and technology.

Investigating the dynamics of quantum circuits through measurement and stabilizer geometry.

Researchers improve gold's conductivity by embedding silver nanoparticles, revealing new electrical behaviors.

Research examines the magnetic and electronic behaviors of AgCrSe2 material.

Research on quantum spin liquids and complex magnetic states using the spin-Kitaev-Heisenberg model.

This study explores self-moving features in ferrimagnetic materials under changing magnetic fields.

Investigating the superconducting properties and complexities of Sr2RuO4.

A look at Kondo screening and its effects in molecules with unpaired electrons.

Investigating the unusual arrangements of lithium and sodium when cooled.

Exploring the role of frustrated magnets in advancing low-temperature refrigeration.

Research reveals unique behaviors of Rydberg atoms in integrable models under constraints.

Exploring how electron dynamics are influenced by lattice vibrations and temperature changes.

Researchers study how viscosity affects electron flow in advanced electronic materials.

Researchers investigate crystalline symmetry's role in fractional Chern insulators and topological phases.

This article discusses Kondo and Quantum Zeno effects in monitored quantum dots.

A look into superconductors and topological materials in modern physics.

A study on classifying 2D topological phases using string-net models and entanglement properties.

New methods promise better insights into high-temperature superconductors.

This study examines how nickel affects magnetic behavior in specific materials.

Exploring boundary effects and critical points reveals complex behaviors in quantum systems.

Research on SPT phases reveals insights for noise resilience in quantum computing.

Exploring the unique properties of Lifshitz fermion theories and their implications.

Exploring the unique properties and applications of ferromagnetic ferroelectric materials.

Research reveals complex electron behaviors in MATBG using advanced computational techniques.

Exploring shift excitons and their impact on material behavior and applications.

Examining the resilience of k-local quantum systems amidst external disturbances.

Examining the effects of fractionalization in non-invertible symmetries within quantum systems.

This study explores how disorder affects particle localization in a ladder-shaped quantum system.

Research on 2D magnets reveals insights into magnetic quantum impurities and their effects.

Exploring the role of high-order singularities and flat bands in material properties.

A look into how quantum spin systems behave under various conditions.

This study examines the unique electronic properties of anisotropic Dirac semimetals using a holographic model.