Suppression of Antiferromagnetism in Electron-Doped Cuprate T'- La2-x Cex CuO4δ

Abstract

We performed systematic angle-resolved photoemission spectroscopy measurements in-situ on T'- La2-x Cex CuO4δ (LCCO) thin films over the extended doping range prepared by the refined ozone/vacuum annealing method. Electron doping level (n), estimated from the measured Fermi surface volume, varies from 0.05 to 0.23, which covers the whole superconducting dome. We observed an absence of the insulating behavior around n 0.05 and the Fermi surface reconstruction shifted to n 0.11 in LCCO compared to that of other electron-doped cuprates at around 0.15, suggesting that antiferromagnetism is strongly suppressed in this material. The possible explanation may lie in the enhanced -t' /t in LCCO for the largest La3+ ionic radius among all the Lanthanide elements.

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