Locking of length scales in two-band superconductors

Abstract

A model of a clean two-band s-wave superconductor with cylindrical Fermi surfaces, different Fermi velocities v1,2, and a general 2x2 coupling matrix Valpha beta is used to study the order parameter distribution in vortex lattices. The Eilenberger weak coupling formalism is used to calculate numerically the spatial distributions of the pairing amplitudes Delta1 and Delta2 of the two bands for vortices parallel to the Fermi cylinders. For generic values of the interband coupling V12, it is shown that, independently of the couplings Valpha beta, of the ratio v1 /v2, of the temperature, and the applied field, the length scales of spatial variation of Delta1 and of Delta2 are the same within the accuracy of our calculations. The only exception from this single length-scale behavior is found for V12 --> 0, i.e., for nearly decoupled bands.