Charge and spin excitations of insulating lamellar copper oxides

Abstract

A consistent description of low-energy charge and spin responses of the insulating Sr2CuO2Cl2 lamellar system is found in the framework of a one-band Hubbard model which besides U includes hoppings up to 3rd nearest-neighbors. By combining mean-field calculations, exact diagonalization (ED) results, and Quantum Monte Carlo simulations (QMC), we analyze both charge and spin degrees of freedom responses as observed by optical conductivity, ARPES, Raman and inelastic neutron scattering experiments. Within this effective model, long-range hopping processes flatten the quasiparticle band around (0,π). We calculate also the non-resonant A1g and B1g Raman profiles and show that the latter is composed by two main features, which are attributed to 2- and 4-magnon scattering.

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