Spin susceptibility and magnetic short-range order in the Hubbard model

Abstract

The uniform static spin susceptibility in the paraphase of the one-band Hubbard model is calculated within a theory of magnetic short--range order (SRO) which extends the four-field slave-boson functional-integral approach by the trans- formation to an effective Ising model and the self-consistent incorporation of SRO at the saddle point. This theory describes a transition from the paraphase without SRO for hole dopings δ > δc2 to a paraphase with anti- ferromagnetic SRO for δc1 < δ < δc2. In this region the susceptibility consists of interrelated `itinerant' and `local' parts and increases upon doping. The zero--temperature susceptibility exhibits a cusp at δc2 and reduces to the usual slave-boson result for larger dopings. Using the realistic value of the on--site Coulomb repulsion U=8t for LSCO, the peak position (δc2 = 0.26) as well as the doping dependence reasonably agree with low--temperature susceptibility experiments showing a maximum at a hole doping of about 25\%.

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