Latest Articles for Condensed Matter Physics

This article discusses how disorder influences the behavior of Chern-Hopf insulators.

This article discusses how magnetic excitations in LaNiO relate to superconductivity.

A novel approach reveals insights into quantum systems using density patterns.

Researchers reveal complex behaviors of EuB's resistivity and electronic states.

Research examines turbulent behavior in atomic BECs and its similarity to classical fluids.

This article examines topological defects in two-dimensional active nematic liquid crystals.

Study reveals complex interactions in FeGe, showcasing charge density waves and magnetism.

This article examines the Kondo effect and its implications in magnetic spin systems.

Study reveals behaviors of quantum systems under rapid temperature changes.

Discovering how edge modes influence new technologies in topologically ordered materials.

Research on moiré superlattices reveals new phases in layered materials.

LK-99 reveals unique electronic properties despite earlier superconductivity claims.

Study of how electric currents affect electron spins in various materials.

Examining electron behaviors in materials with Van Hove points and triplet superconductivity.

Study reveals how entanglement varies across different contexts and temperatures.

Exploring unique phases of quantum materials and their implications for research.

This article examines the behavior of electrons near Fermi surfaces under weak magnetic fields.

Exploring the unique dynamics of Weyl semimetals during phase transitions.

This study explores synchronization between spin chains and its implications for quantum systems.

New findings challenge established theories on TiSe2's phase transition behavior.

Exploring the complex interactions between fractional quantum Hall states and fractional Chern insulators.

Research on artificial gauge fields in ultracold atoms expands understanding of particle interactions.

Research reveals charge patterns in doped Mott insulators affecting superconductivity.

Study reveals complex behavior in heavy-fermion materials influenced by temperature and element substitution.

Recent studies reveal complex behaviors of Bose gas near Feshbach resonances.

Exploring the Casimir effect and its implications across various particle systems.

Research on multiterminal Josephson junctions reveals unique properties of superconductors and normal metals.

This article explores the distinct charge density wave states in CsV3Sb5.

A new perspective on the anomalous Hall effect reveals complex interactions in magnetic materials.

Exploring the effects of non-Hermiticity in twisted bilayer graphene's electronic properties.

This article examines the unique features of driven systems and their topological characteristics.

Research extends the equation of state for ultracold Bose gases beyond traditional models.

This article explores the relationship between Dirac semimetals and their superconducting states.

Research focuses on YbOCl's magnetic behavior and interactions at low temperatures.

Discover the unique structures and properties of kagome metals like V Sb.

Study of CeRhIn's magnetic behavior at low temperatures and under magnetic fields.

Explore the unique phases and properties of graphene under strong magnetic fields.

This study examines how particle collisions impact spin polarization in quantum mechanics.

Exploring how perovskite superlattices behave under different conditions.

La Ni O shows promise as a superconductor at high temperatures under pressure.