Phase Transitions in the Symmetric Kondo Lattice Model in Two and Three Dimensions

Abstract

We present an application of high-order series expansion in the coupling constants for the ground state properties of correlated lattice fermion systems. Expansions have been generated up to order (t/J)14 for d=1 and (t/J)8 for d=2,\ 3 for certain properties of the symmetric Kondo lattice model. Analyzing the susceptibility series, we find evidence for a continuous phase transition from the ``spin liquid'' phase characteristic of a ``Kondo Insulator'' to an antiferromagnetically ordered phase in dimensions d2 as the antiferromagnetic Kondo coupling is decreased. The critical point is estimated to be at (t/J)c≈0.7 for square lattice and (t/J)c≈0.5 for simple-cubic lattice.

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