Latest Articles for Superconductivity

This article examines how temperature influences the Hall coefficient in various materials.

Research on MoGa reveals complex behaviors and unexpected phenomena in superconductors.

New tuning technique enhances performance of superconducting qubits in quantum computing.

Investigating Majorana zero modes in quantum dot-superconductor systems for future technologies.

Research reveals new pathways for topological superconductivity without magnetic fields.

Exploring unique properties of Majorana bound states in superconducting materials.

Study reveals how heat treatments improve niobium SRF cavities' performance.

A deep dive into the CPT model and its implications for superconductivity.

A new method enhances quench detection reliability at the European XFEL.

Exploring the link between holographic theories and superconducting behavior through Josephson junctions.

Investigating unique behaviors in superconductors through fractional Shapiro steps.

New methods enhance measurement accuracy of van der Waals superconductors.

A look into the unique behaviors of electron systems in quantum materials.

A look into the fascinating characteristics of Ising superconductors, specifically NbSe.

Researchers uncover charge patterns linked to temperature in ScV Sn.

A look into the pseudogap phenomenon in high-temperature superconductors using the Hubbard model.

Exploring the potential of Majorana particles in quantum computations.

Study reveals unique superconducting behavior in Bi2212 without normal fluid presence.

Explore the unique behaviors of spin-triplet superconductors under varying magnetic fields and temperatures.

Examining heat treatment effects on superconducting radio frequency cavities for enhanced performance.

Examining the intricate world of infinite-layer nickelates and their superconducting potential.

This study examines the magnetic properties of the kagome superconductor CsV Sb using neutron diffraction.

Exploring photon creation through superconducting cavities and their implications for technology.

Researchers modify YBCO films using helium ions to improve superconducting properties.

Examining flat bands and their role in improving superconductors.

Research reveals how light affects the behavior of BCS superconductors.

Spin chirality reveals new insights into material behaviors and electron interactions.

This article explores the superconducting phase interference effect in cuprate superconductors.

The Difluxmon design enhances superconducting qubit performance and coherence.

Examining monopole superconducting order through experimental approaches and theoretical models.

Research on TiSe reveals its unique superconducting properties linked to charge-density waves.

Researchers synthesize new plutonium intermetallics, revealing intriguing magnetic behaviors.

ABCA-stacked tetralayer graphene shows potential for energy-efficient spin currents without loss.

Researchers test gravitational effects on superconducting materials, reinforcing the weak equivalence principle.

Research reveals PdTe's distinct nodal superconductivity and topological features.

Study reveals stripe formation in layered superconductors under magnetic fields.

Research highlights the effects of Higgs mode and impurities on superconductors.

Research reveals insights into superconductivity through the double Kondo lattice model.

Research sheds light on superconductivity differences in cuprate materials.

Research explores spin-charge dynamics in doped quantum spin liquids for advanced materials.