Numerical Renormalization Group calculations of the magnetization of isotropic and anisotropic Kondo impurities

Abstract

We study a Kondo impurity model with additional uniaxial anisotropy D in a non-zero magnetic field B using the Numerical Renormalization Group (NRG). The ratio ge/gS of electron and impurity g-factor is regarded as a free parameter and, in particular, the special cases of a "local" (ge=0) and "bulk" (ge=gS) field are considered. For a bulk field, the relationship between the impurity magnetization M and the impurity contribution to the magnetization Mimp is investigated. Furthermore, we study how the value of ge affects the impurity magnetization curves. In case of an isotropic impurity with ge=gS, it is demonstrated that at zero temperature M(B), unlike Mimp(B), does not display universal behavior. With additional "easy axis" anisotropy, the impurity magnetization is well described by a shifted and rescaled Brillouin function on energy scales that are small compared to |D|. In case of "hard axis" anisotropy, the magnetization curves can feature steps which are due to field-induced pseudo-spin-1/2 Kondo effects. For large anisotropy and a local field, these screening effects are described by an anisotropic spin-1/2 Kondo model with an additional scattering term that is spin-dependent (in contrast to ordinary potential scattering). Our study is motivated by the question how the magnetic properties of a deposited magnetic molecule are modified by the interaction with a non-magnetic metallic surface.