Nearly ferromagnetic metal state in the collapsed tetragonal phase of YFe2(Ge,Si)2

Abstract

The surprising discovery of tripling the superconducting critical temperature of KFe2As2 at high pressures issued an intriguing question of how the superconductivity in the collapsed tetragonal phase differs from that in the non-collapsed phases of Fe-based superconductors. Here we report 89Y nuclear magnetic resonance study of YFe2GexSi2-x compounds whose electronic structure is similar to that of iron-pnictide collapsed tetragonal phases already at ambient pressure. Fe(Ge,Si) layers show strong ferromagnetic spin fluctuations whereas layers are coupled antiferromagnetically -- both positioning the studied family close to a quantum critical point. Next, localized moments attributed either to Fe interstitial or antisite defects may account for magnetic impurity pair-breaking effects thus explaining the substantial variation of superconductivity among different YFe2Ge2 samples.