Muon Spin Rotation and the Vortex Lattice in Superconductors
Ernst Helmut Brandt
TL;DR
This paper calculates the magnetic field distribution in various vortex lattice configurations of type-II superconductors using Ginzburg-Landau theory, providing insights into their structural and magnetic properties.
Contribution
It introduces detailed calculations of P(B) for different vortex lattice arrangements, including strained and vacancy lattices, using Ginzburg-Landau theory.
Findings
Magnetic field probability distributions vary with lattice strain and vacancies.
Short vortex lattices in films exhibit unique magnetic field profiles.
Theoretical predictions align with experimental observations of vortex structures.
Abstract
The magnetic field probability P(B) is calculated from the Ginzburg-Landau theory for various lattices of vortex lines in type-II superconductors: Ideal triangular lattices, lattices with various shear strains and with a super lattice of vacancies, and lattices of short vortices in films whose magnetic field ''mushrooms'' near the surface.
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