Anisotropic heavy Fermi-liquid formation in the valence fluctuating α-YbAlB4

Abstract

α-YbAlB4 is the locally isostructural polymorph of β-YbAlB4, the first example of an Yb-based heavy fermion superconductor which exhibits pronounced non-Fermi-liquid behavior above T c. Interestingly, both α-YbAlB4 and β-YbAlB4 have strongly intermediate valence. Our single crystal study of the specific heat, magnetization and resistivity has confirmed the Fermi liquid ground state of α-YbAlB4 ~in contrast with the quantum criticality observed in β-YbAlB4. Both systems exhibit Kondo lattice behavior with the characteristic temperature scale T* 8 K in addition to a valence fluctuation scale 200 K. Below T*, α-YbAlB4 a heavy Fermi liquid state with an electronic specific heat coefficient γ 130 mJ/mol K2 and a large Wilson ratio more than 7, which indicates ferromagnetic correlation between Yb moments. A large anisotropy in the resistivity suggests that the hybridization between 4f and conduction electrons is much stronger in the ab-plane than along the c-axis. The strongly anisotropic hybridization as well as the large Wilson ratio is the key to understand the unusual Kondo lattice behavior and heavy fermion formation in mixed valent compounds.