Electronic structure of heavily electron-doped BaFe1.7Co 0.3AS2 studied by angle-resolved photoemission

Y. Sekiba; T. Sato; K. Nakayama; K. Terashima; P. Richard; J. H. Bowen; H. Ding; Y. M. Xu; L. J. Li; G. H. Cao; Z. A. Xu; T. Takahashi

doi:10.1088/1367-2630/11/2/025020

Electronic structure of heavily electron-doped BaFe_1.7Co _0.3AS₂ studied by angle-resolved photoemission

Y. Sekiba, T. Sato, K. Nakayama, K. Terashima, P. Richard, J. H. Bowen, H. Ding, Y. M. Xu, L. J. Li, G. H. Cao, Z. A. Xu, T. Takahashi

Graduate School of Natural Science and Technology

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

117 Citations (Scopus)

Abstract

We have performed high-resolution angle-resolved photoemission spectroscopy on heavily electron-doped non-superconducting (SC) BaFe_1.7Co _0.3As₂. We find that the two hole Fermi surface pockets at the Brillouin zone center observed in the hole-doped superconducting Ba _0.6K_0.4Fe₂As₂ are absent or very small in this compound, while the two electron pockets at the zone corner significantly expand due to electron doping by the Co substitution. Comparison of the Fermi surface between non-SC and SC samples indicates that the coexistence of hole and electron pockets connected via the antiferromagnetic wave vector is essential in realizing the mechanism of superconductivity in the iron-based superconductors.

Original language	English
Article number	025020
Journal	New Journal of Physics
Volume	11
DOIs	https://doi.org/10.1088/1367-2630/11/2/025020
Publication status	Published - Feb 27 2009

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1088/1367-2630/11/2/025020

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title = "Electronic structure of heavily electron-doped BaFe1.7Co 0.3AS2 studied by angle-resolved photoemission",

abstract = "We have performed high-resolution angle-resolved photoemission spectroscopy on heavily electron-doped non-superconducting (SC) BaFe1.7Co 0.3As2. We find that the two hole Fermi surface pockets at the Brillouin zone center observed in the hole-doped superconducting Ba 0.6K0.4Fe2As2 are absent or very small in this compound, while the two electron pockets at the zone corner significantly expand due to electron doping by the Co substitution. Comparison of the Fermi surface between non-SC and SC samples indicates that the coexistence of hole and electron pockets connected via the antiferromagnetic wave vector is essential in realizing the mechanism of superconductivity in the iron-based superconductors.",

author = "Y. Sekiba and T. Sato and K. Nakayama and K. Terashima and P. Richard and Bowen, {J. H.} and H. Ding and Xu, {Y. M.} and Li, {L. J.} and Cao, {G. H.} and Xu, {Z. A.} and T. Takahashi",

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doi = "10.1088/1367-2630/11/2/025020",

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T1 - Electronic structure of heavily electron-doped BaFe1.7Co 0.3AS2 studied by angle-resolved photoemission

AU - Sekiba, Y.

AU - Sato, T.

AU - Nakayama, K.

AU - Terashima, K.

AU - Richard, P.

AU - Bowen, J. H.

AU - Ding, H.

AU - Xu, Y. M.

AU - Li, L. J.

AU - Cao, G. H.

AU - Xu, Z. A.

AU - Takahashi, T.

PY - 2009/2/27

Y1 - 2009/2/27

N2 - We have performed high-resolution angle-resolved photoemission spectroscopy on heavily electron-doped non-superconducting (SC) BaFe1.7Co 0.3As2. We find that the two hole Fermi surface pockets at the Brillouin zone center observed in the hole-doped superconducting Ba 0.6K0.4Fe2As2 are absent or very small in this compound, while the two electron pockets at the zone corner significantly expand due to electron doping by the Co substitution. Comparison of the Fermi surface between non-SC and SC samples indicates that the coexistence of hole and electron pockets connected via the antiferromagnetic wave vector is essential in realizing the mechanism of superconductivity in the iron-based superconductors.

AB - We have performed high-resolution angle-resolved photoemission spectroscopy on heavily electron-doped non-superconducting (SC) BaFe1.7Co 0.3As2. We find that the two hole Fermi surface pockets at the Brillouin zone center observed in the hole-doped superconducting Ba 0.6K0.4Fe2As2 are absent or very small in this compound, while the two electron pockets at the zone corner significantly expand due to electron doping by the Co substitution. Comparison of the Fermi surface between non-SC and SC samples indicates that the coexistence of hole and electron pockets connected via the antiferromagnetic wave vector is essential in realizing the mechanism of superconductivity in the iron-based superconductors.

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JF - New Journal of Physics

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Electronic structure of heavily electron-doped BaFe_1.7Co _0.3AS₂ studied by angle-resolved photoemission

Abstract

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