Mechanism for high-temperature superconductivity in cuprates

1 March 1991

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 43 (7) , 6155-6158
https://doi.org/10.1103/physrevb.43.6155

Abstract

A treatment of the Coulomb interaction in cuprates by a time-dependent multiple-scattering theory leads to coherently excited holes in the ‘‘antibonding’’ band with the appearance of a pairing interaction between the (coherently excited) holes. This pairing interaction leads to superconductivity in doped cuprates. The essential points of the mechanism are discussed by making some illustrative calculations and by examining the behavior of a few parameters.

Keywords

This publication has 19 references indexed in Scilit:

Phenomenological Constraints on Theories for High Temperature Superconductivity
International Journal of Modern Physics B, 1989
Microscopic model for high-Tcoxide superconductors
Physical Review B, 1989
Electronic structure of the high-temperature oxide superconductors
Reviews of Modern Physics, 1989
Charge transfer excitations and superconductivity in “ionic” metals
Solid State Communications, 1987
Electronic structure and properties of YBa2Cu3O7-δ, a low dimensional, low density of states superconductor
Physics Letters A, 1987
Electronic band properties and superconductivity in ${La}_{2 - y}$ $X_{y}$ ${CuO}_{4}$
Physical Review Letters, 1987
Electronically driven instabilities and superconductivity in the layered ${La}_{2 - x}$ ${Ba}_{x}$ ${CuO}_{4}$ perovskites
Physical Review Letters, 1987
Study of intermediate valence by the time-dependent collision approach
Physical Review B, 1984
New approach to the theory of intermediate valence
Physical Review B, 1983
Coherent-state multipole moments in electron-hydrogen impact excitation
Physical Review A, 1979