Quasiparticle spectrum of d-wave superconductors in the mixed state: a large Fermi-velocity anisotropy study

Abstract

The quasiparticle spectrum of a two-dimensional d-wave superconductor in the mixed state, Hc1 << H << Hc2, is studied for large values of the ``anisotropy ratio'' alphaD = vF/vDelta. For a square vortex lattice rotated by 45 degrees from the quasiparticle anisotropy axes (and the usual choice of Franz--Tesanovic singular gauge transformation) we determine essential features of the band structure asymptotically for large alphaD, using an effective one-dimensional model, and compare them to numerical calculations. We find that several features of the band structure decay to zero exponentially fast for large alphaD. Using a different choice of singular gauge transformation, we obtain a different band structure, but still find qualitative agreement between the 1D and full 2D calculations. Finally, we distort the square lattice into a non-Bravais lattice. Both the one- and two-dimensional numerical calculations of the energy spectra show a gap around zero-energy, with our gauge choice, and the two excitation spectra agree reasonably well.

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