Latest Articles for Disorder

Study reveals surprising behaviors in lightly doped 6-layered BaCaCuO superconductors.

Research focuses on new methods to control electron beams using advanced materials.

Exploring electron transport behaviors in Kekulé-ordered graphene under varying conditions.

A look into the factors influencing metal-insulator transitions in materials.

This study examines charge behavior in ScV Sn under changing temperatures and doping.

This article examines how disorder affects material strength and failure mechanisms.

Exploring the unique properties and potentials of kagome superconductors in condensed matter physics.

A look into the distinct behaviors of 2M-WS and its superconducting properties.

Research reveals new phase in Haldane model influenced by disorder.

Research advances in simulating spin chains using quantum computers.

New method IDBindT5 enhances prediction of binding sites in disordered proteins.

Study reveals how materials impact conductivity and resistive behavior.

Exploring how disorder affects graphene's electronic properties and quasiparticle dynamics.

Explore the effects of disorder and temperature on bilayer graphene's properties.

Learn how barocaloric materials can transform cooling technology through entropy changes.

An insight into entropy and its role in natural systems.

Study examines how pair hopping affects phase transitions in spinless fermions.

Exploring how randomness can influence success in quantum games and tasks.

Discover the unique properties of topological materials and their potential applications.

Researchers examine the effects of palladium on charge-density waves in ErTe.

Scientists study bosons in lattices, revealing stabilization through disorder.

Uncovering the unique properties and stability of magic angles in twisted bilayer graphene.

A look into the nonlinear Hall effect and its implications for materials science.

Research reveals how edge modes maintain wave direction despite disturbances.

Study reveals effects of quantum coins and disorder on rogue amplitudes.

Examining the unique properties and applications of antiferromagnetic topological insulators.

V2FeAl's atom arrangement impacts its magnetic properties, crucial for technology.

Research introduces complex cuprates with promising superconducting properties.

Exploring the impacts of disorder on the Thouless pump and Floquet states.

Examining superconductors' reactions to sudden shifts in temperature and energy structure.

A look at how random paths interact with disorder in materials.

A look into how impurities affect topological states in materials.

FLVCR1 gene impacts health through its role in transport proteins.

Research reveals the resilience of Nd-based pyrochlore magnets in varying conditions.

Recent studies reveal surprising transitions in cuprate materials from superconductors to metals.

Exploring the role of disorder in Kitaev spin liquids and their unique properties.

Study of amplitude mode in disordered systems near superfluid-insulator transitions.

A study on how disorder affects superconductivity in SrRuO3.

Researchers reveal key thermal conductivity features of UTe and its superconducting gap.

Examining how disorder affects superconductivity in quasi-one-dimensional materials.