Pairing symmetry and long range pair potential in a weak coupling theory of superconductivity

Abstract

We study the superconducting phase with two component order parameter scenario, such as, dx2-y2 + eiθsα, where α = xy, x2+y2. We show, that in absence of orthorhombocity, the usual dx2-y2 does not mix with usual sx2+y2 symmetry gap in an anisotropic band structure. But the sxy symmetry does mix with the usual d-wave for θ =0. The d-wave symmetry with higher harmonics present in it also mixes with higher order extended s wave symmetry. The required pair potential to obtain higher anisotropic dx2-y2 and extended s-wave symmetries, is derived by considering longer ranged two-body attractive potential in the spirit of tight binding lattice. We demonstrate that the dominant pairing symmetry changes drastically from d to s like as the attractive pair potential is obtained from longer ranged interaction. More specifically, a typical length scale of interaction , which could be even/odd multiples of lattice spacing leads to predominant s/d wave symmetry. The role of long range interaction on pairing symmetry has further been emphasized by studying the typical interplay in the temperature dependencies of these higher order d and s wave pairing symmetries.

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