Author(s)

Ekkehard Krüger

Institut für Materialwissenschaft, Materialphysik, Universität Stuttgart, Stuttgart, Germany.

As shown in former papers, the nonadiabatic Heisenberg model presents a novel mechanism of Cooper pair formation which is not the result of an attractive electron-electron interaction but can be described in terms of quantum mechanical constraining forces. This mechanism operates in narrow, roughly half-filled superconducting bands of special symmetry and is evidently responsible for the formation of Cooper pairs in all superconductors. Here we consider this new mechanism within an outer magnetic field. We show that in the magnetic field the constraining forces produce Cooper pairs of non-vanishing total momentum with the consequence that an electric current flows within the superconductor. This current satisfies the London equations and, consequently, leads to the Meissner effect. This theoretical result is confirmed by the experimental observation that all superconductors, whether conventional or unconventional, exhibit the Meissner effect.

Superconductivity, Meissner Effect, Nonadiabatic Heisenberg Model, Time Inversion in a Magnetic Field, Constraining Forces

Krüger, E. (2017) Constraining Forces Causing the Meissner Effect. Journal of Modern Physics, 8, 1134-1142. doi: 10.4236/jmp.2017.88074.