Latest Articles for Superconductivity

RhGe shows promise for advanced superconductivity and quantum technologies.

Exploring the special properties of twisted bilayer graphene and its magic angles.

A look into the unique properties and applications of superconductors in technology.

A study reveals the complex behavior of cuprate materials at different states.

Exploring unique behaviors in superconductors breaking symmetry rules.

Discover the fascinating properties of twisted bilayer graphene and its magic angles.

Exploring the unique properties and behavior of heavy fermion superconductors.

Study reveals missing Shapiro step in Bi2Te3 junctions, hinting at Majorana modes.

Research on superconducting diode effect promises to advance electronic device efficiency.

Recent findings on quasiparticles enhance our grasp of cuprate superconductivity.

Research reveals how flat band materials could lead to higher temperature superconductors.

NMR shifts reveal complex behaviors in cuprates and their electronic properties.

Exploring the interactions of fermions in the 2D Hubbard model.

Discover the fascinating properties and behaviors of Weyl superconductors.

Researchers create a new superconducting compound with unique properties.

Gatemon qubits show promise in enhancing quantum computing through unique materials and structures.

Examining the unique behaviors of quasicrystals and their superconducting properties.

New analytical methods improve understanding of superconducting circuits and qubit performance.

Explore the behavior and applications of long-range kinks in various materials.

Researchers improve methods for creating high-quality nickelate films with unique properties.

Research examines how single molecule magnets impact superconductors for future technology.

Examining TEP variations in Tl2201 superconductors at different temperatures and hole concentrations.

This article explores topology in superconducting circuits and the BiSQUID's unique behaviors.

Research delves into the behavior of FeSeTe's superconductivity and electronic structure.

This article explores how high-energy photons affect quasiparticle density in superconductors.

Research improves aluminum layer quality for potential quantum computing applications.

Study of waveguide networks reveals insights into quantum mechanics and microwave behavior.

An overview of superconducting spin valves and their implications for electronics.

A novel method for achieving topological superconductivity using magnetic barriers in Josephson junctions.

A look into unusual electronic behaviors near density wave orders.

Majorana zero modes hold promise for quantum computing and unique properties in superconductors.

Research focuses on improving single-photon detection using transmon qubits in quantum technology.

Investigating how magnetic impurities influence superconducting behavior and quantum effects.

Investigating the role of Andreev spin qubits in quantum computing.

Research uncovers properties of infinite-layer nickelates for superconducting applications.

Exploring how optical activity impacts materials like superconductors and noncentrosymmetric metals.

Research highlights the unique benefits of superconductivity in atomically thin materials.

Researchers unveil unique LaSb thin films showing superconductivity at higher temperatures.

New findings on Josephson junctions enhance understanding of superconductivity and its applications.

This study examines how critical currents affect superconducting quantum interference filters.