Dynamical charge susceptibility in layered cuprates: the influence of screened inter-site Coulomb repulsion
Abstract
The analytical expression for dynamical charge susceptibility in layered cuprates has been derived in the frame of singlet-correlated band model beyond random-phase-approximation (RPA) scheme. Our calculations performed near optimal doping regime show that there is a peak in real part of the charge susceptibility ( q,ω) at Q = (π, π) at strong enough inter-site Coulomb repulsion. Together with the strong maximum in the Im ( Q,ω) at 15 meV it confirms the formation of low-energetic plasmons or charge fluctuations. This provides a jsutification that these excitations are important and together with a spin flcutuations can contribute to the Cooper pairing in layered cuprates. Analysing the charge susceptibilitiy with respect to an instability we obtain a new plasmon branch, ω q, along the Brillouin Zone. In particular, we have found that it goes to zero near QCDW ≈ (2π/3, 2π/3).
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