Andreev reflection spectroscopy of the new Fe-based superconductor EuAsFeO0.85F0.15: evidence for the strong order parameter anisotropy

TL;DR

This study uses Andreev reflection spectroscopy to investigate the superconducting gap structure of EuAsFeO0.85F0.15, revealing strong anisotropy in the order parameter and contrasting it with other Fe-based superconductors.

Contribution

It provides the first detailed spectroscopic evidence of anisotropic s- or s±-wave symmetry of the order parameter in EuAsFeO0.85F0.15, a superconductor with unusually low Tc.

Findings

Evidence for two energy gaps with wide variation in their ratios.

Confirmation of anisotropic s- or s±-wave symmetry of the order parameter.

Contradiction of d-wave symmetry observed in some low-Tc pnictides.

Abstract

Andreev reflection spectra have been measured in a new superconductor EuAsFeO0.85F0.15 having an unexpectedly low superconducting transition temperature Tc~11.3 K among related FeAs compounds on a base Sm and Gd surrounding Eu in the series of lanthanides. The nearly fivefold lower Tc, as against the expected value, is attributed to the divalent properties of Eu ions when in the compound investigated along with the weakly magnetic Eu3+ ions may be present and the strongly magnetic Eu2+ ones that is a strong destructive factor for superconductivity. Most of the spectra measured showed features that corresponds to two energy gaps whose values varied from contact to contact within 2{\Delta}s/kTc=2.2{\pm}4.7 and 2{\Delta}1/kTc=5.1{\pm}11.7 for small and large gap, respectively. The corresponding variations for single-gap spectra are 2{\Delta}/kTc = 2.6{\pm}6.4. The relatively large size of crystallites (no less than ~25 \mu{m}) and the large number of contacts measured (several tens) suggest with a high degree of probability that the spectra obtained account quite fully for the gap distribution practically in all crystallographic directions. The data obtained and the absence of zero gaps in the measured spectra evidence in favor of the anisotropic s- or s\pm-symmetry of the order parameter in EuAsFeO0.85F0.15 that was revealed in other similar compounds with higher Tc. Thus, the character of the gap function {\Delta}(k) in this compound is inconsistent with the d-wave superconductivity observed in some low-Tc pnictides.