Angular resolved specific heat in iron-based superconductors: the case for nodeless extended s-wave gap

Abstract

We consider the variation of the field-induced component of the specific heat C( H) with the direction of the applied field in Fe-pnictides within quasi-classical Doppler-shift approximation, with special emphasis to recent experiments on FeSe0.4Te0.6 [Zheng et al., arXiv:1004.2236]. We show that for extended s-wave gap with no nodes, C( H) has 4 φ component, where φ is the angle between H and the direction between hole and electron Fermi surfaces. The maxima of C( H) are at π/4, 3π/4, etc. if the applied field is smaller than H0 ≤ 1T, and at φ =0, π/2, etc. if the applied field is larger than H0. The angle-dependence of C( H), the positions of the maxima, and the relative magnitude of the oscillating component are consistent with the experiments performed in the field of 9T >> H0. We show that the observed 4 φ variation does not hold if the s-wave gap has accidental nodes along the two electron Fermi surfaces.