Quantum Critical Point between Two-Channel Kondo and Fermi-Liquid Phases

Abstract

We investigate the emergence of quantum critical points near a two-channel Kondo phase by evaluating an f-electron entropy of a seven-orbital impurity Anderson model hybridized with three (7 and 8) conduction bands with the use of a numerical renormalization group method First we consider the case of Pr3+ ion, in which quadrupole two-channel Kondo effect is known to occur for the local 3 doublet state. When we control crystalline electric field (CEF) potentials so as to change the local CEF ground state from 3 doublet to 1 singlet or 5 triplet, we commonly observe a residual entropy of φ with the golden ratio φ=(1+5)/2, which is equal to that for three-channel Kondo effect. This peculiar residual entropy is also observed for the case of Nd3+ ion, in which magnetic two-channel Kondo phase is found to occur for the local 6 doublet state. We envisage a scenario that the quantum critical point characterized by φ generally appears between two-channel Kondo and Fermi-liquid phases.