Theory of high energy features in angle-resolved photo-emission spectra of hole-doped cuprates

Details Theory of high energy features in angle-resolved photo-emission spectra of hole-doped cuprates Theory of high energy features in angle-resolved photo-emission spectra of hole-doped cuprates

2006-10-18

arxiv.org/abs/cond-mat/0610491v2

Phys. Rev. B 76,054505 (2007)

Physics

Condensed Matter

Superconductivity

5 pages 2 figs

Scientific paper

The recent angle-resolved photoemission measurements performed up to binding energies of the order of 1eV reveals a very robust feature: the nodal quasi-particle dispersion breaks up around 0.3-0.4eV and reappears around 0.6-0.8eV. The intensity map in the energy-momentum space shows a waterfall like feature between these two energy scales. We argue and numerically demonstrate that these experimental features follow naturally from the strong correlation effects built in the familiar t-J model, and reflect the connection between the fermi level and the lower Hubbard band. The results were obtained by a mean field theory that effectively projects electrons by quantum interference between two bands of fermions instead of binding slave particles.

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