Quantum Criticality and Inhomogeneous Magnetic Order in Fe-doped alpha-YbAlB4

Abstract

The intermediate-valent polymorphs α- and β-YbAlB4 exhibit quantum criticality and other novel properties not usually associated with intermediate valence. Iron doping induces quantum criticality in α-YbAlB4 and magnetic order in both compounds. We report results of muon spin relaxation (μSR) experiments in the intermediate-valent alloys α-YbAl1-xFexB4, x = 0.014 and 0.25. For x = 0.014 we find no evidence for magnetic order down to 25 mK\@. The dynamic muon spin relaxation rate λd exhibits a power-law temperature dependence λd T-a, a = 0.40(4), in the temperature range 100 mK--2 K, in disagreement with predictions by theories of antiferromagnetic (AFM) or valence quantum critical behavior. For x = 0.25, where AFM order develops in the temperature range 7.5--10 K, where we find coexistence of meso- or macroscopically segregated paramagnetic and AFM phases, with considerable disorder in the latter down to 2 K.