Interband Nodal-Region Pairing And the Antinodal Pseudogap in Hole Doped Cuprates

Abstract: Recent experimental findings show that the pairing interaction in hole-doped cuprates resides in the nodal (FS arcs) region accompanied by the separate antinodal pseudogap. A corresponding multiband model of cuprate superconductivity is developed. It is based on the electronic spectrum evolving with doping and extends authors' earlier approaches. The leading pair-transfer interaction is supposed between the itinerant (mainly oxygen) band and a nodal defect (polaron) band created by doping. These components are… Show more

“…Notwithstanding large theoretical and experimental efforts, the pseudogap nature still remains unknown [61,[66][67][68][69][70][71][72][73][74][75][76][77][78][79][80][81][82][83]. Namely, some scholars associate them with precursor order parameter fluctuations, which might be either superconducting or competing (charge density waves -CDWs, spin density waves -SDWs, etc.)…”

dc Josephson current for d-wave superconductors with charge density waves

“…Notwithstanding large theoretical and experimental efforts, the pseudogap nature still remains unknown [61,[66][67][68][69][70][71][72][73][74][75][76][77][78][79][80][81][82][83]. Namely, some scholars associate them with precursor order parameter fluctuations, which might be either superconducting or competing (charge density waves -CDWs, spin density waves -SDWs, etc.)…”

dc Josephson current for d-wave superconductors with charge density waves

dc Josephson Current Between an Isotropic and a d-Wave or Extended s-Wave Partially Gapped Charge Density Wave Superconductor