Electronic structure of Nd 2-xCe xCuO 4 and La 2-xSr xCuO 4 deduced from Cu 2 p photoemission and photoabsorption

Kozo Okada

doi:10.1143/JPSJ.78.034725

Electronic structure of Nd _2-xCe _xCuO ₄ and La _2-xSr _xCuO ₄ deduced from Cu 2 _p photoemission and photoabsorption

Kozo Okada

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

The electronic structures of Nd _2-xCe _xCuO ₄ and La _2-xSr _xCuO ₄ are studied using numerical diagonalization calculations for cluster models, Cu ₅O ₁₆, Cu ₇O ₂₀, and Cu ₈O ₁₆. The Fermi energy of Nd ₂CuO ₄ used in the experiment is assumed to be pinned at the bottom of the upper Hubbard band, while that of La ₂CuO ₄ is assumed to be pinned at the top of the Zhang Rice singlet band. This assumption enables us to consistently understand the doping dependence of the Cu 2 _p photoemission and photoabsorption spectra in Nd _2-xCe _xCuO ₄ and La _2-xSr _xCuO ₄ on the basis of the so-called "crossing the gap" picture. The present calculation of Cu 2 _p photoemission spectrum also shows that core hole screening caused by charge transfer between neighboring CuO ₄ plaquettes, in other words, nonlocal screening (NLS), is important in Nd ₂CuO ₄ as well as in La ₂CuO ₄.

Original language	English
Article number	034725
Journal	journal of the physical society of japan
Volume	78
Issue number	3
DOIs	https://doi.org/10.1143/JPSJ.78.034725
Publication status	Published - Mar 2009

Keywords

Chemical shift, Nd Ce CuO , La Sr CuO
Cu 2 photoemission
Dp model
Nonlocal screening
X-ray absorption
Zhang Rice singlet

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1143/JPSJ.78.034725

Cite this

@article{f0e2084a20f6427aa5744859c58b9191,

title = "Electronic structure of Nd 2-xCe xCuO 4 and La 2-xSr xCuO 4 deduced from Cu 2 p photoemission and photoabsorption",

abstract = "The electronic structures of Nd 2-xCe xCuO 4 and La 2-xSr xCuO 4 are studied using numerical diagonalization calculations for cluster models, Cu 5O 16, Cu 7O 20, and Cu 8O 16. The Fermi energy of Nd 2CuO 4 used in the experiment is assumed to be pinned at the bottom of the upper Hubbard band, while that of La 2CuO 4 is assumed to be pinned at the top of the Zhang Rice singlet band. This assumption enables us to consistently understand the doping dependence of the Cu 2 p photoemission and photoabsorption spectra in Nd 2-xCe xCuO 4 and La 2-xSr xCuO 4 on the basis of the so-called {"}crossing the gap{"} picture. The present calculation of Cu 2 p photoemission spectrum also shows that core hole screening caused by charge transfer between neighboring CuO 4 plaquettes, in other words, nonlocal screening (NLS), is important in Nd 2CuO 4 as well as in La 2CuO 4.",

keywords = "Chemical shift, Nd Ce CuO , La Sr CuO, Cu 2 photoemission, Dp model, Nonlocal screening, X-ray absorption, Zhang Rice singlet",

author = "Kozo Okada",

year = "2009",

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doi = "10.1143/JPSJ.78.034725",

language = "English",

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journal = "journal of the physical society of japan",

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AU - Okada, Kozo

PY - 2009/3

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N2 - The electronic structures of Nd 2-xCe xCuO 4 and La 2-xSr xCuO 4 are studied using numerical diagonalization calculations for cluster models, Cu 5O 16, Cu 7O 20, and Cu 8O 16. The Fermi energy of Nd 2CuO 4 used in the experiment is assumed to be pinned at the bottom of the upper Hubbard band, while that of La 2CuO 4 is assumed to be pinned at the top of the Zhang Rice singlet band. This assumption enables us to consistently understand the doping dependence of the Cu 2 p photoemission and photoabsorption spectra in Nd 2-xCe xCuO 4 and La 2-xSr xCuO 4 on the basis of the so-called "crossing the gap" picture. The present calculation of Cu 2 p photoemission spectrum also shows that core hole screening caused by charge transfer between neighboring CuO 4 plaquettes, in other words, nonlocal screening (NLS), is important in Nd 2CuO 4 as well as in La 2CuO 4.

AB - The electronic structures of Nd 2-xCe xCuO 4 and La 2-xSr xCuO 4 are studied using numerical diagonalization calculations for cluster models, Cu 5O 16, Cu 7O 20, and Cu 8O 16. The Fermi energy of Nd 2CuO 4 used in the experiment is assumed to be pinned at the bottom of the upper Hubbard band, while that of La 2CuO 4 is assumed to be pinned at the top of the Zhang Rice singlet band. This assumption enables us to consistently understand the doping dependence of the Cu 2 p photoemission and photoabsorption spectra in Nd 2-xCe xCuO 4 and La 2-xSr xCuO 4 on the basis of the so-called "crossing the gap" picture. The present calculation of Cu 2 p photoemission spectrum also shows that core hole screening caused by charge transfer between neighboring CuO 4 plaquettes, in other words, nonlocal screening (NLS), is important in Nd 2CuO 4 as well as in La 2CuO 4.

KW - Chemical shift, Nd Ce CuO , La Sr CuO

KW - Cu 2 photoemission

KW - Dp model

KW - Nonlocal screening

KW - X-ray absorption

KW - Zhang Rice singlet

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