A Two dimensional Model of Superconductivity
F. Ghaboussi
TL;DR
This paper introduces a two-dimensional superconductivity model utilizing topological fermion-boson duality, resolving existing discrepancies in penetration depth and explaining quantized vortex lines through electron cyclotron motion.
Contribution
It presents a novel 2D model of superconductivity based on topological duality, addressing key experimental-theoretical gaps and phenomena.
Findings
Resolves discrepancy in penetration depth values.
Explains quantized vortex lines via electron cyclotron motion.
Provides a topological framework for superconductivity phenomena.
Abstract
We present a two dimensional model of superconductivity where bosonization of fermions is described by topological fermion-boson duality. The model solves the discrepancy between theoretical and empirical values of penetration depth and explains the appearence of quantized vortex lines in supercunductors in accord with cyclotron motion of supercunducting electrons.
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Taxonomy
TopicsPhysics of Superconductivity and Magnetism · Quantum, superfluid, helium dynamics · Superconducting Materials and Applications