Theory of isotope effect in photoemission spectra of high-Tc superconducting cuprates
Abstract
We investigate the effect of isotope substitution on the electronic spectral functions within a model where the charge carriers are coupled to bosonic charge-order (CO) fluctuations centered around some mean frequency ω0 and with enhanced scattering at wave-vector qc. It is shown that a mass dependence of ω0 is not sufficient in order to account, especially at high energies, for the dispersion shifts experimentally observed in an optimally doped superconducting cuprate. We argue that isotope substitution induces a change of the spatial CO correlations which gives good account of the experimental data.
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