Superconducting energy gap and c-axis plasma frequency of (Nd,Sm)O0.82F0.18FeAs superconductors from infrared ellipsometry

Abstract

We present ellipsometric measurements of the far-infrared dielectric response of polycrystalline samples of the new pnictide superconductor RO0.82F0.18FeAs (R=Nd and Sm). We find evidence that the electronic properties are strongly anisotropic such that the optical spectra are dominated by the weakly conducting c-axis response similar as in the cuprate high-temperature superconductors (HTSC). Accordingly, we obtain an upper limit of the c-axis superconducting plasma frequency of ω pl,c SC≤ 260 which corresponds to a lower limit of the c-axis magnetic penetration depth of λc≥6μm and an anisotropy of λc/λab≥ 30 as compared to λab=185 nm from muon spin rotation [A. Drew et al., arXiv:0805.1042]. Also in analogy to the cuprate HTSC, our spectra exhibit the signatures of a gap-like suppression of the conductivity in the superconducting state with a large gap magnitude of 2≈300 (37 meV) and a ratio of 2/k B≈8 that is suggestive of strong coupling.