On the theory of supermodulation of the superconducting order parameter created by structural supermodulation of apex distance in optimally doped Bi2Sr2CaCu2O8+x

Abstract

Recently using Scanning Josephson Tunneling Microscopy (SJTM) in the group of S\'eamus Davis a super-modulation of the superconducting order parameter induced by super-modulation of the distance δ between planar Cu and apical O was observed in [O'Mahony et. al., PNAS Vol. 119(37), e2207449119 (2022)]. The authors conclude that: "concurrence of prediction from strong correlation theory ... with these observations indicates that ... super-exchange is the electron pairing mechanism of Bi2Sr2CaCu2O8+x". In our current theoretical study we use the LCAO approximation, Hilbert space spanned on 5 atomic orbitals: Cu4s, Cu3dx2-y2, O2px, O2py, O2pz. For the only super-exchange amplitude Jsd we use the Kondo double electron exchange between Cu4s and Cu3dx2-y2 orbitals and its anti-ferromagnetic sign is determined by adjacent to the Cu ion in-plane O orbitals. Within this approximations we have calculated: "Measured dependence of … electron-pair density np on the displacement δ of the apical O atoms from the planar Cu atoms" depicted in Fig. 5(C) of O'Mahony et. al. and obtained an acceptable accuracy. As a whole, the analyzed SJTM experiment is one of the best confirmations of J. R\"ohler [J. R\"ohler, Physica B: Cond. Matter Vol. 284-288, 104 (2000)] idea that hybridization of Cu4s with conduction band leads to increasing of Tc. The lack of an alternative explanations for SJTM data np versus δ and shape-Tc,max correlations for the description of the critical temperature of optimally doped cuprates for several decades on the background of a simple view gives a hint that the long sought pairing mechanism has possibly been found and the Kondo exchange interaction as a property of strongly correlated quantum matter deserves further attention in the physics of layered cuprates.