Direct observation of a nodeless superconducting energy gap in the optical conductivity of iron-pnictides

Abstract

The temperature-dependent optical reflectivity and complex transmissivity of an epitaxially grown Ba(Fe0.9Co0.1)2As2 thin film were measured and the optical conductivity and permittivity evaluated over a wide frequency range. The opening of the superconducting gap 20 = 3.7 meV below Tc≈ 20 K is directly observed by a completely vanishing optical conductivity. The temperature and frequency dependent electrodynamic properties of Ba(Fe0.9Co0.1)2As2 in the superconducting state agree well with the BCS predictions with no nodes in the order parameter. The spectral weight of the condensate 1.94× 107 cm-2 corresponds to a London penetration depth λL=3600 .