Nanomaterials | Free Full-Text | Reconstruction-Induced φ0 Josephson Effect in Quantum Spin Hall Constrictions
Flux lines in type II superconductors
Strong In-Plane Magnetic Field-Induced Reemergent Superconductivity in the van der Waals Heterointerface of NbSe2 and CrCl3 | ACS Applied Materials & Interfaces
Controlled Generation of Quantized Vortex–Antivortex Pairs in a Superconducting Condensate | Nano Letters
Superconductivity - Magnetic and electromagnetic properties of superconductors | Britannica
Fractional, integer quantum Hall effect, quantized magnetic flux by de Broglie wave
Meissner effect cannot be explained classically – arXiv Vanity
Zero-energy bound states in the high-temperature superconductors at the two-dimensional limit | Science Advances
Magnetic susceptibility of a superconductor under applied magnetic... | Download Scientific Diagram
Superconductivity
Superfluidity and quantized vortices
Scientists Discover a Topological Magnet That Exhibits Exotic Quantum Effects
Macroscopic Quantum Mechanics - Annenberg Learner
Measuring magnetic field texture in correlated electron systems under extreme conditions | Science
Magnetic flux expulsion in a superconducting wire - ScienceDirect
SOLVED: Describe how you would measure the two major characteristics of a superconductor and explain the differences between critical temperature and critical magnetic field. In particular I would like to know the
Theory
SQUID Magnetometer and Josephson Junctions
Akimitsu Laboratory Homepage
Isolated pairs of Majorana zero modes in a disordered superconducting lead monolayer | Nature Communications
Why do magnetic fields destroy superconductivity? - Quora
Conductance Quantization at Zero Magnetic Field in InSb Nanowires | Nano Letters
Superconductivity
Theory for electric dipole superconductivity with an application for bilayer excitons | Scientific Reports
Scalable Majorana vortex modes in iron-based superconductors | Science Advances
