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Renormalization Group Study of the Electron-phonon Interaction in the High Tc Cuprates

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arxiv cond-mat/0509072 v2 pith:QQ6YUBXH submitted 2005-09-02 cond-mat.str-el cond-mat.supr-con

Renormalization Group Study of the Electron-phonon Interaction in the High Tc Cuprates

classification cond-mat.str-el cond-mat.supr-con
keywords retardedcupratesinteractionquasiparticlecouplingd-wavedensityelectron-phonon
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We generalize the numerical renormalization group scheme to study the phonon-mediated retarded interactions in the high Tc cuprates. We find that three sets of phonon-mediated retarded quasiparticle scatterings grow under RG flow. These scatterings share the following common features: 1) the initial and final quasiparticle momenta are in the antinodal regions, and 2) the scattering amplitudes have a $x^2-y^2$ symmetry. All three sets of retarded interaction are driven to strong coupling by the magnetic fluctuations around $(\pi,\pi)$. After growing strong, these retarded interaction will trigger density wave orders with d-wave symmetry. However, due to the d-wave form factor they will leave the nodal quasiparticle unaffected. We conclude that the main effect of electron-phonon coupling in the cuprates is to promote these density wave orders.

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