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Intralayer and interlayer spin-singlet pairing and energy gap functions with different possible symmetries in high-T{sub c} layered superconductors

Journal Article · · Physical Review, B: Condensed Matter
 [1];  [2]
  1. Tata Institute of Fundamental Research, Homi Bhabha Road, Colaba, Mumbai 400 005 (India)
  2. Naval Research Laboratory, Washington, D.C. 20375-5320 (United States)
+ Show Author Affiliations
Anisotropy and the wave-vector dependence of the energy gap function determine many important properties of a superconductor. Starting from first principles, we present here a complete analysis of possible symmetries of the superconducting gap function E{sub g}({bold k}) at the Fermi surface in high-T{sub c} layered superconductors with either a simple orthorhombic or a tetragonal unit cell. This is done within the framework of Gorkov{close_quote}s mean-field theory of superconductivity in the so-called {open_quotes}layer representation{close_quotes} introduced by us earlier. For N conducting cuprate layers, J=1,2,{hor_ellipsis},N, in each unit cell, the spin-singlet order parameters {Delta}{sub JJ}({bold k}) can be expanded in terms of possible basis functions of all the irreducible representations relevant to layered crystals, which are obtained here. In layered materials, the symmetry is restricted to the translational lattice periodicity in the direction perpendicular to the layers and the residual point group and translational symmetries for the two-dimensional unit cell in each layer of the three-dimensional unit cell. We derive an exact general relation to determine different branches of the energy gap function E{sub g}({bold k}) at the Fermi surface in terms of {Delta}{sub JJ}({bold k}), which include both intralayer and interlayer order parameters. For N=2, we also obtain an exact expression for quasiparticle energies E{sub p}({bold k}), p=1,2, in the superconducting state in the presence of intralayer and complex interlayer order parameters as well as complex tunneling matrix elements between the two layers in the unit cell, which need not be equivalent. The form of the possible basis functions are also listed in terms of cylindrical coordinates k{sub t},{phi},k{sub z} to take advantage of the orthogonality of functions with respect to {phi} integrations. (Abstract Truncated)
OSTI ID:
530176
Journal Information:
Physical Review, B: Condensed Matter, Journal Name: Physical Review, B: Condensed Matter Journal Issue: 22 Vol. 55; ISSN PRBMDO; ISSN 0163-1829
Country of Publication:
United States
Language:
English

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Related Subjects

66 PHYSICS
ANISOTROPY
ENERGY GAP
FERMI LEVEL
HIGH-TC SUPERCONDUCTORS
LAYERS