2014, Bonavolontà, C., Parlato, L., De, Lisio, C., Valentino, M., Pepe, G.P., Kazumasa, I., Kurth, F., Bellingeri, E., Pallecchi, I., Putti, M., Ferdeghini, C., Ummarino, G.A., Laviano, F.

Femtosecond spectroscopy has been used to investigate the quasi-particle relaxation times in nearly optimally doped Fe-based superconductors FeSe 0.5Te0.5 and optimally doped Ba-122 thin films growth on a Fe buffer layer. Experimental results concerning the temperature dependence of the relaxation time of such pnictides both in the superconducting state are now presented and discussed. Modelling the T-dependence of relaxation times an estimation of both electron-phonon constant and superconducting energy gap in the excitation spectrum of both Fe(Se,Te) and Ba-122 compounds is obtained.

2018, Yuan, F., Grinenko, V., Iida, K., Richter, S., Pukenas, A., Skrotzki, W., Sakoda, M., Naito, M., Sala, A., Putti, M., Yamashita, A., Takano, Y., Shi, Z., Nielsch, K., Hühne, R.

Revealing the universal behaviors of iron-based superconductors (FBS) is important to elucidate the microscopic theory of superconductivity. In this work, we investigate the effect of in-plane strain on the slope of the upper critical field H c2 at the superconducting transition temperature T c (i.e. -dH c2/dT) for FeSe0.7Te0.3 thin films. The in-plane strain tunes T c in a broad range, while the composition and disorder are almost unchanged. We show that -dH c2/dT scales linearly with T c, indicating that FeSe0.7Te0.3 follows the same universal behavior as observed for pnictide FBS. The observed behavior is consistent with a multiband superconductivity paired by interband interaction such as sign change s ± superconductivity.