Spin-Dependent Mass Enhancement under Magnetic Field in the Periodic Anderson Model

Abstract

In order to study the mechanism of the mass enhancement in heavy fermion compounds in the presence of magnetic field, we study the periodic Anderson model using the fluctuation exchange approximation. The resulting value of the mass enhancement factor z-1 can become up to 10, which is significantly larger than that in the single-band Hubbard model. We show that the difference between the magnitude of the mass enhancement factor of up spin (minority spin) electrons z-1up and that of down spin (majority spin) electrons z-1down increases by the applied magnetic field B//z, which is consistent with de Haas-van Alphen measurements for CeCoIn5, CeRu2Si2 and CePd2Si2. We predict that z-1up >z-1down in many Ce compounds, whereas z-1up < z-1down in Yb compounds.