Exact Results for a Kondo Problem in One Dimensional t-J Model
Abstract
We propose an integrable Kondo problem in a one-dimensional (1D) t-J model. With the open boundary condition of the wave functions at the impurity sites, the model can be exactly solved via Bethe ansatz for a class of JR,L (Kondo coupling constants) and VL,R (impurity potentials) parametrized by a single parameter c. The integrable value of JL,R runs from negative infinity to positive infinity, which allows us to study both the ferromagnetic Kondo problem and antiferromagnetic Kondo problem in a strongly correlated electron system. Generally, there is a residual entropy for the ground state, which indicates a typical non-Fermi liquid behavior.
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