New Quantum Criticality Revealed under Pressure

Abstract

Unconventional quantum critical phenomena observed in Yb-based periodic crystals such as YbRh2Si2 and β-YbAlB4 have been one of the central issues in strongly correlated electron systems. The common criticality has been discovered in quasicrystal Yb15Au51Al34, which surprisingly persists under pressure at least up to P=1.5 GPa. The T/H scaling where the magnetic susceptibility can be expressed as a single scaling function of the ratio of temperature T and magnetic field H has been discovered in the quasicrystal, which is essentially the same as that observed in β-YbAlB4. Recently, the T/H scaling as well as the common criticality has been also observed even in the approximant crystal Yb14Au51Al35 under pressure. The theory of critical Yb-valence fluctuation gives a natural explanation for these striking phenomena in a unified way.