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19 April 2024 |
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Article overview
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Doping dependent charge order correlations in electron-doped cuprates | E. H. da Silva Neto
; B.Yu
; M. Minola
; R. Sutarto
; E. Schierle
; F. Boschini
; M. Zonno
; M. Bluschke
; J. Higgins
; Y. Li
; G.Yu
; E.Weschke
; F. He
; M. Le Tacon
; R. L. Greene
; M. Greven
; G. A. Sawatzky
; B. Keimer
; A. Damascelli
; | Date: |
20 Jul 2016 | Abstract: | Understanding the interplay between charge order (CO) and other phenomena
(e.g. pseudogap, antiferromagnetism, and superconductivity) is one of the
central questions in the cuprate high-temperature superconductors. The
discovery that similar forms of CO exist in both hole- and electron-doped
cuprates opened a path to determine what subset of the CO phenomenology is
universal to all the cuprates. Here, we use resonant x-ray scattering to
measure the charge order correlations in electron-doped cuprates (La2-xCexCuO4
and Nd2-xCexCuO4) and their relationship to antiferromagnetism, pseudogap, and
superconductivity. Detailed measurements of Nd2-xCexCuO4 show that CO is
present in the x = 0.059 to 0.166 range, and that its doping dependent
wavevector is consistent with the separation between straight segments of the
Fermi surface. The CO onset temperature is highest between x = 0.106 and 0.166,
but decreases at lower doping levels, indicating that it is not tied to the
appearance of antiferromagnetic correlations or the pseudogap. Near optimal
doping, where the CO wavevector is also consistent with a previously observed
phonon anomaly, measurements of the CO below and above the superconducting
transition temperature, or in a magnetic field, show that the CO is insensitive
to superconductivity. Overall these findings indicate that, while verified in
the electron-doped cuprates, material-dependent details determine whether the
CO correlations acquire sufficient strength to compete for the ground state of
the cuprates. | Source: | arXiv, 1607.6094 | Services: | Forum | Review | PDF | Favorites |
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