Latest Articles for Condensed Matter Physics

New autoregressive models improve sampling and representation of complex quantum states.

Examining the interplay of charge order and superconductivity in kagome superconductors.

This study explores the impact of memory effects in Kadanoff-Baym equations and HF-GKBA.

This article discusses the role of topological entanglement in understanding quantum systems.

Research reveals strain's impact on magnetic interactions in LaNiO3 thin films.

Study of Topological Anderson Insulators reveals complex localization behaviors.

This study presents a minimally invasive method for detecting currents and solitons in BECs.

Exploring unique magnetic states in SrCu2(BO3)2 under strong magnetic fields.

Investigating the complex behaviors of wave functions in disordered systems.

Research sheds light on density variations in quark-gluon plasma under magnetic fields.

Investigating how twist angles in tBL MoS₂ affect its structure and electronic properties.

A method to calculate entanglement entropy using correlation functions in fermionic systems.

Exploring how complexity measures information in fermionic systems and its significance.

Research reveals how pressure influences superconductivity in the material LaNiO.

Research sheds light on bosonic gases at low temperatures and their behaviors.

Exploring the complex world of multipolar spin liquids and their potential applications.

A fresh approach improves studies of magnetic interactions in complex materials.

Research on CoSi reveals unusual quantum oscillations and quasiparticle behaviors.

CeVGe showcases unique properties linked to heavy fermions and magnetic interactions.

A look into Skyrmions and their role in understanding Baryonic matter.

Learn about the unique properties and applications of multi-Weyl semimetals.

A look into the study of chiral spin liquids using advanced modeling techniques.

A look into gap solitons and nonlinear Bloch states in Bose-Einstein condensates.

Discover how impurities in metals lead to unique electron behaviors.

This research explores the link between quantum superposition and spin glass behavior.

Exploring the impact of quantum oscillations on electronic properties in metals.

Research reveals stable configurations and energy pathways of vortex crystals in superfluid helium.

Researchers study how curvature influences Bose-Einstein condensates in waveguides.

New research reveals unique behaviors of surface electrons in topological insulators with fractal dimensions.

Chiral phonons show strong magnetic responses, promising advancements in material science.

Examining the properties and behaviors of quantum droplets in optical lattices.

Investigating the interactions between graphene edge states and superconductors reveals unique phenomena.

Examining unique behaviors in quasiperiodic systems and their implications.

A study on how broken symmetries affect CFTs on thermal manifolds.

Exploring the unique properties and potential applications of non-abelian anyons in quantum computing.

YbMnSb reveals insights into electron behavior influenced by its crystal structure and magnetic properties.

An overview of how band structures in materials are classified by topology.

New insights on bosonic systems and edge modes reshape our view of quantum mechanics.

Research reveals unique properties of hyper-honeycomb Cu oxalate framework.

Research sheds light on quasielectrons and their behavior in fractional quantum Hall systems.