Latest Articles for Condensed Matter Physics

Research on eTTG reveals intriguing properties linked to magic angles and flat bands.

Research sheds light on the unique properties of Kondo insulators and their defects.

Examining complex spin chains through simpler Ising models reveals new quantum behaviors.

Study reveals impacts of voltage on weak localization and antilocalization in TBG.

Exploring how hybrid Wannier states enhance our understanding of Bloch electrons in magnetic fields.

Investigating Moiré patterns for advanced excitonic and photonic technologies.

Research reveals unique properties of kagome superconductors for advanced technologies.

A look into how self-energy impacts superconductivity and analysis methods.

This article explores the factors affecting the insulating nature of BaNaOsO.

An overview of many-body localization and its interactions with thermal baths.

Research highlights the unique properties of MXenes in excitonic insulator formation.

Studying interactions of Rydberg atoms reveals complex behaviors in many-body systems.

Researchers examine how twisted graphene impacts superconducting states and electron behavior.

Study reveals insights into hole dynamics within antiferromagnetic materials.

Research reveals insights into excitonic pairing and its potential applications.

Research on frustrated magnets reveals complex magnetic interactions and zero-point entropy.

An overview of paramagnetic excitons and their unique properties in honeycomb structures.

New research highlights bismuth's role in spintronics through its topological nature.

Kagome metals exhibit unique charge-density waves and superconductivity, inviting deeper exploration.

Discover how Weyl semimetals interact with light in unique ways.

Research on Landau levels reveals insights into materials and quantum states.

Examining quantum quenches and their effects in PT symmetric systems.

New insights into magnon bands and their complex interactions in magnetic materials.

Examining the unique properties and applications of non-Hermitian Weyl semimetals.

Research reveals nematic order in strontium ruthenate, impacting superconductivity understanding.

La NiO reveals complex magnetic interactions that challenge existing theories.

Exploring the conditions for the Mpemba effect in quantum systems.

Research on bilayer graphene reveals unique electronic properties governed by Haldane flux.

A look at the unique behaviors of graphene nanoribbons in electronics.

Research on magnetic topological insulators reveals unique electron behaviors in Hall conductance.

Using machine learning to predict ground states in quantum many-body systems.

Research on ScMnAlSi reveals unusual electronic behavior linked to its kagome structure.

Examining the dynamics of one-dimensional Bose gases through generalised hydrodynamics.

Research sheds light on unique quantum interactions in ultracold gases.

Research sheds light on superfluid states of fermions in Hubbard ladders.

Exploring unique properties and phases of non-Hermitian systems in modern physics.

This article explores the ionic Hubbard model and its phases with density-dependent hopping.

Examining how impurities influence Bogoliubov Fermi surfaces in superconducting materials.

A novel quantum sensor detects electric fields using trapped electrons and offers high sensitivity.

Investigating the relationship between quasicrystals and quantum chromodynamics.