Superconducting gap in BaFe2(As1-xPx)2 from temperature dependent transient optical reflectivity

Abstract

Temperature and fluence dependence of the 1.55-eV optical transient reflectivity in BaFe2(As1-xPx)2 was measured and analysed in the low and high excitation density limit. The effective magnitude of the superconducting gap of 5 meV obtained from the low-fluence-data bottleneck model fit is consistent with the ARPES results for the γ-hole Fermi surface. The superconducting-state nonthermal optical destruction energy was determined from the fluence dependent data. The in-plane optical destruction energy scales well with Tc2 and is found to be similar in a number of different layered superconductors.