Phase transition beneath the superconducting dome in BaFe2(As1-xPx)2

Abstract

We present a theory for the large suppression of the superfluid-density, s, in BaFe2(As1-xPx)2 in the vicinity of a putative spin-density wave quantum critical point at a P-doping, x=xc. We argue that the transition becomes weakly first-order in the vicinity of xc, and disorder induces puddles of superconducting and antiferromagnetic regions at short length-scales; thus the system becomes an electronic micro-emulsion. We propose that frustrated Josephson couplings between the superconducting grains suppress s. In addition, the presence of `normal' quasiparticles at the interface of the frustrated Josephson junctions will give rise to a highly non-trivial feature in the low frequency response in a narrow vicinity around xc. We propose a number of experiments to test our theory.