Interplay of CEF effects and RKKY interaction in Ce- and Yb-based heavy-fermion compounds
ORAL
Abstract
We calculate the influence of Crystalline Electric Field (CEF) effects on the indirect
Ruderman-Kittel-Kasuya-Yoshida (RKKY) exchange interaction between local 4f moments in Ce- and Ybcompounds.
Starting from a periodic Anderson model and neglecting spin-orbit effects among the conduction
states, we show that the anisotropy of the CEF ground state manifests itself in the anisotropy of the effective
exchange coupling constant J(R, R’) between two moments at sites R and R’ while the interaction between two
Kramers doublets is isotropic in pseudo-spin space. We evaluate the exchange constant for various models of
the conduction states in tetragonal Ce- and Yb-122 compounds. The influence of spin-orbit interaction among
the conduction electrons is discussed.
Ruderman-Kittel-Kasuya-Yoshida (RKKY) exchange interaction between local 4f moments in Ce- and Ybcompounds.
Starting from a periodic Anderson model and neglecting spin-orbit effects among the conduction
states, we show that the anisotropy of the CEF ground state manifests itself in the anisotropy of the effective
exchange coupling constant J(R, R’) between two moments at sites R and R’ while the interaction between two
Kramers doublets is isotropic in pseudo-spin space. We evaluate the exchange constant for various models of
the conduction states in tetragonal Ce- and Yb-122 compounds. The influence of spin-orbit interaction among
the conduction electrons is discussed.
*Funding Acknowledgement: Partially supported by the joint French-German ANR-DFG grant Fermi-NESt.
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Presenters
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Gertrud Zwicknagl
- Institute for Mathematical Physics, Technical University Braunschweig
- Tech Univ Braunschweig