Microscopic Study of the Superconducting State of the Iron Pnictide RbFe_2As_2

TL;DR

This study investigates the superconducting properties of RbFe_2As_2 using muon-spin rotation, revealing a low critical temperature, a multi-gap superconducting state, and reduced gap ratios compared to related systems.

Contribution

It provides detailed measurements of penetration depth and critical field in RbFe_2As_2, highlighting differences from other 122 iron-based superconductors and discussing the implications for pairing mechanisms.

Findings

Measured penetration depth erent temperature and field.

Determined upper critical field B_c2(0)=2.6 T.

Observed reduced superconducting gap ratios.

Abstract

A study of the temperature and field dependence of the penetration depth \lambda of the superconductor RbFe_2As_2 (T_c=2.52 K) was carried out by means of muon-spin rotation measurements. In addition to the zero temperature value of the penetration depth \lambda(0)=267(5) nm, a determination of the upper critical field B_c2(0)=2.6(2) T was obtained. The temperature dependence of the superconducting carrier concentration is discussed within the framework of a multi-gap scenario. Compared to the other "122" systems which exhibit much higher Fermi level, a strong reduction of the large gap BCS ratio 2\Delta/k_B T_c is observed. This is interpreted as a consequence of the absence of interband processes. Indications of possible pair-breaking effect are also discussed.