Pair–pair interactions as a mechanism for high-Tc superconductivity
Résumé
The mutual interaction between Cooper pairs is proposed as a mechanism for the
superconducting state. Above Tc, pre-existing but fluctuating Cooper pairs give rise to the
unconventional pseudogap (PG) state, well-characterized by experiment. At the critical
temperature, the pair–pair interaction induces a Bose-like condensation of these preformed pairs
leading to the superconducting (SC) state. Below Tc, both the condensation energy and the pair–
pair interaction β are proportional to the condensate density Noc(T), while the usual Fermi-level
spectral gap Dp is independent of temperature. The new order parameter b (T), can be followed
as a function of temperature, carrier concentration and disorder—i.e. the phase diagrams. The
complexity of the cuprates, revealed by the large number of parameters, is a consequence of the
coupling of quasiparticles to Cooper-pair excitations. The latter interpretation is strongly
supported by the observed quasiparticle spectral function