Latest Articles for Superconductors

Weyl points reveal unique electronic properties in certain materials.

Exploring the potential of Majorana zero modes in enhancing quantum technologies.

Research on Majorana zero modes offers insights into future quantum computing.

Research introduces complex cuprates with promising superconducting properties.

Researchers propose a new qubit design leveraging Majorana bound states for quantum computing.

CsCr Sb showcases unique superconducting properties stemming from its kagome lattice structure.

A study on parafermion zero modes in superconducting hybrid structures and their technological significance.

Investigating unique properties of kagome superconductors and their applications.

This article explores the behavior of LSMO and YBCO in superlattices under various conditions.

Study explores resistance in lead islands on graphene under temperature and electric fields.

This study simplifies energy behavior in materials through mathematical modeling.

Researchers analyze the motion of levitated superconductors to advance quantum sensing technology.

Research examines the structure and magnetic behavior of copper-substituted lead oxyapatite.

Investigating LaNiO’s unique properties and its potential for superconductivity.

Explore CoSi films and their key properties in electronics and superconducting applications.

Study explores QGS in 3D superconductors using MoTiN films' unique electrical properties.

A look into how doping affects superconductivity in cuprates.

Exploring the unique electronic behaviors of the superconductor RbBi.

Discover advancements in fluxonium qubits and their impact on quantum computing.

Exploring Majorana fermions in topological superconductors for future quantum computing.

Research on SrRuO reveals complex behaviors in superconductivity and electron interactions.

New insights into Josephson junctions using nanowires for quantum computing.

Researchers investigate the surprising magnetic properties of infinite-layer nickelates.

Study of high-temperature behaviors and transitions in materials.

Examining how magnetic fields affect resistance in certain materials.

Exploring dielectric loss and its impact on superconducting qubit performance.

CeRhAs shows unique phase transitions with temperature and magnetic fields.

Recent research sheds light on spin and charge behaviors of LaNiO crystals.

Study reveals how thickness affects hyperuniform properties in vortex matter.

Twisted bilayer WSe shows potential for superconductivity and unique electronic properties.

Examining how annealing influences the superconducting properties of niobium crystals.

Scientists develop a technique to measure dynamic Young's modulus in quantum materials.

Research reveals how thickness changes superconductivity characteristics in 2H-NbS.

A look into the BKT transition and its significance in superconductivity.

Research reveals exciting features in Ta-CsVSb kagome superconductors.

Exploring current behaviors in normal metal-superconductor junctions through Andreev reflections.

A spintronic device matrix enhances control of Majorana zero modes for quantum computing.

Researchers advance understanding of LaNiO's superconducting behavior under pressure.

Research highlights the effects of surface treatments on niobium superconductors' magnetic properties.

Examining the interplay of superconductivity, vortices, and particle interactions.