Anisotropic optical properties of detwinned BaFe2As2

Abstract

The optical properties of a large, detwinned single crystal of BaFe2As2 have been examined over a wide frequency range above and below the structural and magnetic transition at T N 138 K. Above T N the real part of the optical conductivity and the two infrared-active lattice modes are almost completely isotropic; the lattice modes show a weak polarization dependence just above T N. For T<T N, the optical conductivity due to the free-carrier response is anisotropic, being larger along the a axis than the b axis below 30 meV; above this energy the optical conductivity is dominated by the interband contributions, which appear to be isotropic. The splitting of the low-energy infrared-active mode below T N is clearly observed, and the polarization modulation of the new modes may be used to estimate that the crystal is 70% detwinned. The high-frequency mode, with a threefold increase in strength of the lower branch below T N and nearly silent upper branch, remains enigmatic.