Binding of holes to magnetic impurities in a strongly correlated system

1 November 1994

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 50 (17) , 13020-13023
https://doi.org/10.1103/physrevb.50.13020

Abstract

The effect of a magnetic (S=1/2) impurity coupled to a two-dimensional system of correlated electrons (described by the t-J model) is studied by exact diagonalizations. It is found that, if the exchange coupling of the impurity with the neighboring spins is ferromagnetic or weakly antiferromagnetic, an extra hole can form bound states of different spatial symmetries with the impurity extending to a few lattice spacings. The binding energy is maximum when the impurity is completely decoupled (vacancy) and vanishes for an antiferromagnetic coupling exceeding ∼0.3J. Several peaks appear in the single-hole spectral function below the lower edge of the quasiparticle band as signatures of the d-, s-, and p-wave bound states.

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