Precision microwave electrodynamics of K and Co - doped BaFe_2As_2

Rinat Ofer; Jake Bobowski; Jordan Baglo; Shun Chi; James Day; Pinder Dosanjh; Brad Ramshaw; Lynne Semple; Ruixing Liang; Walter Hardy; Doug Bonn

Precision microwave electrodynamics of K and Co - doped BaFe$_2$As$_2$

ORAL

Abstract

We present a detailed cavity perturbation measurement of the microwave electrodynamics of single crystal iron-based superconductors. The measurements, down to $\sim$0.4K, were performed on Ba$_{0.72}$K$_{0.28}$Fe$_2$As$_2$ hole-doped with $T_c\sim$30K, and BaFe$_{1.9}$Co$_{0.1}$As$_2$ electron-doped with $T_c\sim$20K. Our results show that the temperature dependence of the in-plane London penetration depth $\Delta\lambda(T)$ does not exhibit the exponential saturation at low temperatures expected from a fully-gapped superconductor. In addition we present broadband surface resistance measurements of two FeAs samples and discuss the behavior of the in-plane superfluid density $\rho_{ab}(T)$ in light of existing theoretical models proposed for the iron pnictides superconductors.

March 17, 2010, 9:36 AM – March 17, 2010, 9:48 AM

Authors

Rinat Ofer
- University of British Columbia
- University of British Colombia
Jake Bobowski
- University of British Colombia
- University of British Columbia
Jordan Baglo
- University of British Colombia
- University of British Columbia
Shun Chi
- University of British Colombia
- University of British Columbia
James Day
- University of British Colombia
- University of British Columbia
Pinder Dosanjh
- University of British Colombia
- University of British Columbia
Brad Ramshaw
- University of British Columbia
- University of British Colombia
Lynne Semple
- University of British Colombia
Ruixing Liang
- University of British Columbia
- University of British Colombia
Walter Hardy
- University of British Colombia
- University of British Columbia
Doug Bonn
- University of British Columbia
- University of British Colombia