Evolution of the remnant Fermi-surface state in the lightly doped correlated spin-orbit insulator Sr2-xLaxIrO4

Kensei Terashima; M. Sunagawa; H. Fujiwara; T. Fukura; M. Fujii; K. Okada; K. Horigane; K. Kobayashi; R. Horie; J. Akimitsu; E. Golias; D. Marchenko; A. Varykhalov; N. L. Saini; T. Wakita; Y. Muraoka; T. Yokoya

doi:10.1103/PhysRevB.96.041106

Evolution of the remnant Fermi-surface state in the lightly doped correlated spin-orbit insulator Sr2-xLaxIrO4

Kensei Terashima, M. Sunagawa, H. Fujiwara, T. Fukura, M. Fujii, K. Okada, K. Horigane, K. Kobayashi, R. Horie, J. Akimitsu, E. Golias, D. Marchenko, A. Varykhalov, N. L. Saini, T. Wakita, Y. Muraoka, T. Yokoya

Research Institute for Interdisciplinary Science

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17 Citations (Scopus)

Abstract

The electronic structure of the lightly electron-doped correlated spin-orbit insulator Sr2IrO4 has been studied by angle-resolved photoelectron spectroscopy. We have observed the coexistence of a lower Hubbard band and an in-gap band; the momentum dependence of the latter traces that of the band calculations without on-site Coulomb repulsion. The in-gap state remained anisotropically gapped in all observed momentum areas, forming a remnant Fermi-surface state, evolving towards the Fermi energy by carrier doping. These experimental results show a striking similarity with those observed in deeply underdoped cuprates, suggesting the common nature of the nodal liquid states observed in both compounds.

Original language	English
Article number	041106
Journal	Physical Review B
Volume	96
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevB.96.041106
Publication status	Published - Jul 7 2017

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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Terashima, K., Sunagawa, M., Fujiwara, H., Fukura, T., Fujii, M., Okada, K., Horigane, K., Kobayashi, K., Horie, R., Akimitsu, J., Golias, E., Marchenko, D., Varykhalov, A., Saini, N. L., Wakita, T., Muraoka, Y., & Yokoya, T. (2017). Evolution of the remnant Fermi-surface state in the lightly doped correlated spin-orbit insulator Sr2-xLaxIrO4. Physical Review B, 96(4), Article 041106. https://doi.org/10.1103/PhysRevB.96.041106

Terashima, K, Sunagawa, M, Fujiwara, H, Fukura, T, Fujii, M, Okada, K, Horigane, K, Kobayashi, K, Horie, R, Akimitsu, J, Golias, E, Marchenko, D, Varykhalov, A, Saini, NL, Wakita, T , Muraoka, Y & Yokoya, T 2017, 'Evolution of the remnant Fermi-surface state in the lightly doped correlated spin-orbit insulator Sr2-xLaxIrO4', Physical Review B, vol. 96, no. 4, 041106. https://doi.org/10.1103/PhysRevB.96.041106

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title = "Evolution of the remnant Fermi-surface state in the lightly doped correlated spin-orbit insulator Sr2-xLaxIrO4",

abstract = "The electronic structure of the lightly electron-doped correlated spin-orbit insulator Sr2IrO4 has been studied by angle-resolved photoelectron spectroscopy. We have observed the coexistence of a lower Hubbard band and an in-gap band; the momentum dependence of the latter traces that of the band calculations without on-site Coulomb repulsion. The in-gap state remained anisotropically gapped in all observed momentum areas, forming a remnant Fermi-surface state, evolving towards the Fermi energy by carrier doping. These experimental results show a striking similarity with those observed in deeply underdoped cuprates, suggesting the common nature of the nodal liquid states observed in both compounds.",

author = "Kensei Terashima and M. Sunagawa and H. Fujiwara and T. Fukura and M. Fujii and K. Okada and K. Horigane and K. Kobayashi and R. Horie and J. Akimitsu and E. Golias and D. Marchenko and A. Varykhalov and Saini, {N. L.} and T. Wakita and Y. Muraoka and T. Yokoya",

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AU - Terashima, Kensei

AU - Sunagawa, M.

AU - Fujiwara, H.

AU - Fukura, T.

AU - Fujii, M.

AU - Okada, K.

AU - Horigane, K.

AU - Kobayashi, K.

AU - Horie, R.

AU - Akimitsu, J.

AU - Golias, E.

AU - Marchenko, D.

AU - Varykhalov, A.

AU - Saini, N. L.

AU - Wakita, T.

AU - Muraoka, Y.

AU - Yokoya, T.

PY - 2017/7/7

Y1 - 2017/7/7

N2 - The electronic structure of the lightly electron-doped correlated spin-orbit insulator Sr2IrO4 has been studied by angle-resolved photoelectron spectroscopy. We have observed the coexistence of a lower Hubbard band and an in-gap band; the momentum dependence of the latter traces that of the band calculations without on-site Coulomb repulsion. The in-gap state remained anisotropically gapped in all observed momentum areas, forming a remnant Fermi-surface state, evolving towards the Fermi energy by carrier doping. These experimental results show a striking similarity with those observed in deeply underdoped cuprates, suggesting the common nature of the nodal liquid states observed in both compounds.

AB - The electronic structure of the lightly electron-doped correlated spin-orbit insulator Sr2IrO4 has been studied by angle-resolved photoelectron spectroscopy. We have observed the coexistence of a lower Hubbard band and an in-gap band; the momentum dependence of the latter traces that of the band calculations without on-site Coulomb repulsion. The in-gap state remained anisotropically gapped in all observed momentum areas, forming a remnant Fermi-surface state, evolving towards the Fermi energy by carrier doping. These experimental results show a striking similarity with those observed in deeply underdoped cuprates, suggesting the common nature of the nodal liquid states observed in both compounds.

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Evolution of the remnant Fermi-surface state in the lightly doped correlated spin-orbit insulator Sr2-xLaxIrO4

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