Local Moments Coupled to a Strongly Correlated Electron Chain
Abstract
A 1D model hamiltonian that is motivated by the recent discovery of the heavy-fermion behavior in the cuprates of the Nd2CuO4 type is studied. It consists of t-J interacting conduction electrons coupled to a lattice of localized spins through a Kondo exchange term JK. Exact diagonalization and density matrix renormalization group methods are used. The latter method is generalized to arbitrary densities. At half-filling, a spin gap opens for all JK>0. Away from half-filling, it is shown that, at strong JK% , the ground state is an unsaturated ferromagnet . At weak JK the system is in a paramagnetic phase with enhanced RKKY correlations. The importance of self-screening of the local moments in the depletion regime is discussed. We argue that these findings transcend the specifics of the model.
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