Material and Doping Dependence of the Nodal and Antinodal Dispersion Renormalizations in Single- and Multilayer Cuprates | Zendy

Steven Johnston | Zendy; W. S. Lee | Zendy; Y. Chen | Zendy; Elizabeth Nowadnick | Zendy; Brian Moritz | Zendy; ZhiXun Shen | Zendy; Thomas Devereaux | Zendy

Open Access

Material and Doping Dependence of the Nodal and Antinodal Dispersion Renormalizations in Single- and Multilayer Cuprates

Author(s) -

Steven Johnston,

W. S. Lee,

Y. Chen,

Elizabeth Nowadnick,

Brian Moritz,

ZhiXun Shen,

Thomas Devereaux

Publication year - 2010

Publication title -

advances in condensed matter physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.314

H-Index - 26

eISSN - 1687-8124

pISSN - 1687-8108

DOI - 10.1155/2010/968304

Subject(s) - cuprate , renormalization , condensed matter physics , doping , physics , lattice (music) , electron , phonon , materials science , quantum mechanics , acoustics

In this paper we present a review of bosonic renormalization effects on electronic carriers observed from angle-resolved photoemission spectra in the cuprates. Specifically, we discuss the viewpoint that these renormalizations represent coupling of the electrons to the lattice and review how materials dependence, such as the number of CuO{sub 2} layers, and doping dependence can be understood straightforwardly in terms of several aspects of electron-phonon coupling in layered correlated materials

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