Non-resonant Raman response of inhomogeneous structures in the electron doped t-t' Hubbard model
Abstract
We calculate the non-resonant Raman response, the single particle spectra and the charge-spin configuration for the electron doped t-t' Hubbard model using unrestricted Hartree-Fock calculations. We discuss the similarities and differences in the response of homogeneous versus inhomogeneous structures. Metallic antiferromagnetism dominates in a large region of the U-n phase diagram but at high values of the on-site interaction and for intermediate doping values, inhomogeneous configurations are found with lower energy. This result is in contrast with the case of hole doped cuprates where inhomogeneities are found already at very low doping. The inhomogeneities found are in-phase stripes compatible with inelastic neutron scattering experiments. They give an incoherent background in the Raman response. The B2g signal can show a quasiparticle-like component even when no Fermi surface is found in the nodal direction.
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