Origin of the band gap in the negative charge-transfer-energy compound NaCuO2

T. Mizokawa; H. Namatame; A. Fujimori; K. Akeyama; H. Kondoh; H. Kuroda; N. Kosugi

doi:10.1103/PhysRevLett.67.1638

Origin of the band gap in the negative charge-transfer-energy compound NaCuO2

T. Mizokawa^*, H. Namatame, A. Fujimori, K. Akeyama, H. Kondoh, H. Kuroda, N. Kosugi

^*Corresponding author for this work

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

171 Citations (Scopus)

Abstract

The electronic structure of the formally Cu3+ (d8) compound NaCuO2 has been studied by photoemission spectroscopy and subsequent cluster configuration-interaction calculations. We find that the d8 d9L (L: ligand hole) charge-transfer energy is negative and the ground state is dominated by the d9L configuration. The band gap corresponds to charge fluctuations of the type d9L+d9L d9+d9L2 (p-p type), being neither of the Mott-Hubbard (d-d) type nor of the charge-transfer (p-d) type. The gap is stabilized and destablized by the intracluster and intercluster hybridizations, respectively.

Original language	English
Pages (from-to)	1638-1641
Number of pages	4
Journal	Physical Review Letters
Volume	67
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevLett.67.1638
Publication status	Published - 1991 Jan 1
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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abstract = "The electronic structure of the formally Cu3+ (d8) compound NaCuO2 has been studied by photoemission spectroscopy and subsequent cluster configuration-interaction calculations. We find that the d8 d9L (L: ligand hole) charge-transfer energy is negative and the ground state is dominated by the d9L configuration. The band gap corresponds to charge fluctuations of the type d9L+d9L d9+d9L2 (p-p type), being neither of the Mott-Hubbard (d-d) type nor of the charge-transfer (p-d) type. The gap is stabilized and destablized by the intracluster and intercluster hybridizations, respectively.",

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T1 - Origin of the band gap in the negative charge-transfer-energy compound NaCuO2

AU - Mizokawa, T.

AU - Namatame, H.

AU - Fujimori, A.

AU - Akeyama, K.

AU - Kondoh, H.

AU - Kuroda, H.

AU - Kosugi, N.

PY - 1991/1/1

Y1 - 1991/1/1

N2 - The electronic structure of the formally Cu3+ (d8) compound NaCuO2 has been studied by photoemission spectroscopy and subsequent cluster configuration-interaction calculations. We find that the d8 d9L (L: ligand hole) charge-transfer energy is negative and the ground state is dominated by the d9L configuration. The band gap corresponds to charge fluctuations of the type d9L+d9L d9+d9L2 (p-p type), being neither of the Mott-Hubbard (d-d) type nor of the charge-transfer (p-d) type. The gap is stabilized and destablized by the intracluster and intercluster hybridizations, respectively.

AB - The electronic structure of the formally Cu3+ (d8) compound NaCuO2 has been studied by photoemission spectroscopy and subsequent cluster configuration-interaction calculations. We find that the d8 d9L (L: ligand hole) charge-transfer energy is negative and the ground state is dominated by the d9L configuration. The band gap corresponds to charge fluctuations of the type d9L+d9L d9+d9L2 (p-p type), being neither of the Mott-Hubbard (d-d) type nor of the charge-transfer (p-d) type. The gap is stabilized and destablized by the intracluster and intercluster hybridizations, respectively.

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Origin of the band gap in the negative charge-transfer-energy compound NaCuO2

Abstract

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