The feasibility of correlation between superconductivity and magnetic
monopole: Establishment of semi-classical electrodynamics projection, TKH
topological theory and dynamic vortex models
In this paper, a feasibility of semi-classical electromagnetic description
together with experimental data, T-K-H topological and dynamic models and
theory of vortex considered to justify the relation between superconductivity
phenomena and magnetic monopole. We find that the electromagnetic energy of
magnetic monopole is in agreement with vortex energy in topological theory and
it can get close to thermal energy at room temperature. Indeed, these models
suggest that the origin of the hot superconductivity may be magnetic monopoles
with QM-Cl = 137 e (magnetic charge in classical approach) or QM-Q =137/2 e
(magnetic charge in quantum approach), and the electrical conductivity is
related to the mobile monopole or vortices. This research shows that the
electrical permittivity ({\epsilon}) and magnetic permeability ({\mu}) of
matter have a key role in the superconductive properties. We propose that this
model may justify the hot superconductivity properties.Comment: 24 pages, 5 figure