Scientific article

English

Structural Origin of Apparent Fermi Surface Pockets in Angle-Resolved Photoemission of Bi₂Sr_2-xLa_xCuO_6+δ

ContributorsKing, P. D. C.; Rosen, J. A.; Meevasana, W.; Tamai, Anna

; Rozbicki, E.; Comin, R.; Levy, G.; Fournier, D.; Yoshida, Y.; Eisaki, H.; Shen, K. M.; Ingle, N. J. C.; Damascelli, A.; Baumberger, Felix

Published inPhysical review letters, vol. 106, no. 12, 127005

Publication date2011

Abstract

We observe apparent hole pockets in the Fermi surfaces of single-layer Bi-based cuprate superconductors from angle-resolved photoemission. From detailed low-energy electron diffraction measurements and an analysis of the angle-resolved photoemission polarization dependence, we show that these pockets are not intrinsic but arise from multiple overlapping superstructure replicas of the main and shadow bands. We further demonstrate that the hole pockets reported recently from angle-resolved photoemission [Meng et al., Nature (London) 462, 335 (2009)] have a similar structural origin and are inconsistent with an intrinsic hole pocket associated with the electronic structure of a doped CuO2 plane.

Affiliation entities

Faculté des sciences / Section de physique / Département de physique de la matière quantique

Research groups

Groupe Baumberger

Citation (ISO format)

KING, P. D. C. et al. Structural Origin of Apparent Fermi Surface Pockets in Angle-Resolved Photoemission of Bi₂Sr_2-xLa_xCuO_6+δ. In: Physical review letters, 2011, vol. 106, n° 12, p. 127005. doi: 10.1103/PhysRevLett.106.127005

Article (Published version)

Identifiers

PID : unige:42074
DOI : 10.1103/PhysRevLett.106.127005

ISSN of the journal0031-9007

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