Scaling behavior of the thermopower of the archetypical heavy-fermion metal YbRh2Si2

Abstract

We reveal and explain a scaling behavior of the thermopower S/T exhibiting by the archetypical heavy-fermion (HF) metal YbRh2Si2 under the application of magnetic field B at temperatures T. We show that the same scaling is demonstrated by such different HF compounds as β- YbAlB4 and the strongly correlated layered cobalt oxide [BiBa0.66K0.36O2]CoO2. Using YbRh2Si2 as an example, we demonstrate that the scaling behavior of S/T is violated at the antiferromagnetic phase transition, while both the residual resistivity 0 and the density of states N experience jumps at the phase transition, making the thermopower experience two jumps and change its sign. Our elucidation is based on flattening of the single-particle spectrum that profoundly affects 0 and N. To depict the main features of the S/T behavior, we construct the T-B schematic phase diagram of YbRh2Si2. Our calculated S/T for the HF compounds are in good agreement with experimental facts and support our observations.