Far-infrared and submillimeter-wave conductivity in electron-doped cuprate La2-xCexCuO4

Abstract

We performed far-infrared and submillimeter-wave conductivity experiments in the electron-doped cuprate La2-xCexCuO4 with x = 0.081 (underdoped regime, Tc = 25 K). The onset of the absorption in the superconducting state is gradual in frequency and is inconsistent with the isotropic s-wave gap. Instead, a narrow quasiparticle peak is observed at zero frequency and a second peak at finite frequencies, clear fingerprints of the conductivity in a d-wave superconductor. A far-infrared conductivity peak can be attributed to 4Delta0, or to 2Delta0 + Deltaspin, where Deltaspin is the resonance frequency of the spin-fluctuations. The infrared conductivity as well as the suppression of the quasiparticle scattering rate below Tc are qualitatively similar to the results in the hole-doped cuprates.

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