Multiple bosonic mode coupling in the charge dynamics of the electron-doped superconductor (Pr2-xCex)CuO4

Abstract

We analyze optical spectroscopy data of the electron-doped superconductor (Pr2-xCex)CuO4 (PCCO) to investigate the coupling of the charge carriers to bosonic modes. The method of analysis is the inversion of the optical scattering rate τ-1 op(ω,T) at different temperatures T by means of maximum entropy technique combined with Eliashberg theory. We find that in the superconducting state the charge carriers couple to two dominant modes one at 10 meV and a second one at 45 meV. The low energy mode shows a strong temperature dependence and disappears at or slightly above the critical temperature Tc. The high energy mode exists above Tc and moves towards higher energies with increasing temperatures. It also becomes less prominent at temperatures > 100 K above which it evolves into a typical spin-fluctuation background. In contrast to the hole-doped High-Tc superconductors PCCO proves to be a superconductor close to the dirty limit.