A balancing act: Evidence for a strong subdominant d-wave pairing channel in Ba0.6K0.4Fe2As2

Abstract

We present an analysis of the Raman spectra of optimally doped Ba0.6K0.4Fe2As2 based on LDA band structure calculations and the subsequent estimation of effective Raman vertices. Experimentally a narrow, emergent mode appears in the B1g (dx2-y2) Raman spectra only below Tc, well into the superconducting state and at an energy below twice the energy gap on the electron Fermi surface sheets. The Raman spectra can be reproduced quantitatively with estimates for the magnitude and momentum space structure of the s+- pairing gap on different Fermi surface sheets, as well as the identification of the emergent sharp feature as a Bardasis-Schrieffer exciton, formed as a Cooper pair bound state in a subdominant dx2-y2 channel. The binding energy of the exciton relative to the gap edge shows that the coupling strength in this subdominant dx2-y2 channel is as strong as 60% of that in the dominant s+- channel. This result suggests that dx2-y2 may be the dominant pairing symmetry in Fe-based sperconductors which lack central hole bands.