Slater to Mott Crossover in the Metal to Insulator Transition of Nd2Ir2 O7

M. Nakayama; Takeshi Kondo; Z. Tian; J. J. Ishikawa; M. Halim; C. Bareille; W. Malaeb; K. Kuroda; T. Tomita; S. Ideta; K. Tanaka; M. Matsunami; S. Kimura; N. Inami; K. Ono; H. Kumigashira; L. Balents; S. Nakatsuji; S. Shin

doi:10.1103/PhysRevLett.117.056403

Slater to Mott Crossover in the Metal to Insulator Transition of Nd2Ir2 O7

M. Nakayama, Takeshi Kondo, Z. Tian, J. J. Ishikawa, M. Halim, C. Bareille, W. Malaeb, K. Kuroda, T. Tomita, S. Ideta, K. Tanaka, M. Matsunami, S. Kimura, N. Inami, K. Ono, H. Kumigashira, L. Balents, S. Nakatsuji, S. Shin

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Abstract

We present an angle-resolved photoemission study of the electronic structure of the three-dimensional pyrochlore iridate Nd2Ir2O7 through its magnetic metal-insulator transition. Our data reveal that metallic Nd2Ir2O7 has a quadratic band, touching the Fermi level at the Γ point, similar to that of Pr2Ir2O7. The Fermi node state is, therefore, a common feature of the metallic phase of the pyrochlore iridates. Upon cooling below the transition temperature, this compound exhibits a gap opening with an energy shift of quasiparticle peaks like a band gap insulator. The quasiparticle peaks are strongly suppressed, however, with further decrease of temperature, and eventually vanish at the lowest temperature, leaving a nondispersive flat band lacking long-lived electrons. We thereby identify a remarkable crossover from Slater to Mott insulators with decreasing temperature. These observations explain the puzzling absence of Weyl points in this material, despite its proximity to the zero temperature metal-insulator transition.

Original language	English
Article number	056403
Journal	Physical review letters
Volume	117
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevLett.117.056403
Publication status	Published - 2016 Jul 27
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1103/PhysRevLett.117.056403

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Nakayama, M., Kondo, T., Tian, Z., Ishikawa, J. J., Halim, M., Bareille, C., Malaeb, W., Kuroda, K., Tomita, T., Ideta, S., Tanaka, K., Matsunami, M., Kimura, S., Inami, N., Ono, K., Kumigashira, H., Balents, L., Nakatsuji, S., & Shin, S. (2016). Slater to Mott Crossover in the Metal to Insulator Transition of Nd2Ir2 O7. Physical review letters, 117(5), [056403]. https://doi.org/10.1103/PhysRevLett.117.056403

Nakayama, M, Kondo, T, Tian, Z, Ishikawa, JJ, Halim, M, Bareille, C, Malaeb, W, Kuroda, K, Tomita, T, Ideta, S, Tanaka, K, Matsunami, M, Kimura, S, Inami, N, Ono, K, Kumigashira, H, Balents, L, Nakatsuji, S & Shin, S 2016, 'Slater to Mott Crossover in the Metal to Insulator Transition of Nd2Ir2 O7', Physical review letters, vol. 117, no. 5, 056403. https://doi.org/10.1103/PhysRevLett.117.056403

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title = "Slater to Mott Crossover in the Metal to Insulator Transition of Nd2Ir2 O7",

abstract = "We present an angle-resolved photoemission study of the electronic structure of the three-dimensional pyrochlore iridate Nd2Ir2O7 through its magnetic metal-insulator transition. Our data reveal that metallic Nd2Ir2O7 has a quadratic band, touching the Fermi level at the Γ point, similar to that of Pr2Ir2O7. The Fermi node state is, therefore, a common feature of the metallic phase of the pyrochlore iridates. Upon cooling below the transition temperature, this compound exhibits a gap opening with an energy shift of quasiparticle peaks like a band gap insulator. The quasiparticle peaks are strongly suppressed, however, with further decrease of temperature, and eventually vanish at the lowest temperature, leaving a nondispersive flat band lacking long-lived electrons. We thereby identify a remarkable crossover from Slater to Mott insulators with decreasing temperature. These observations explain the puzzling absence of Weyl points in this material, despite its proximity to the zero temperature metal-insulator transition.",

author = "M. Nakayama and Takeshi Kondo and Z. Tian and Ishikawa, {J. J.} and M. Halim and C. Bareille and W. Malaeb and K. Kuroda and T. Tomita and S. Ideta and K. Tanaka and M. Matsunami and S. Kimura and N. Inami and K. Ono and H. Kumigashira and L. Balents and S. Nakatsuji and S. Shin",

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T1 - Slater to Mott Crossover in the Metal to Insulator Transition of Nd2Ir2 O7

AU - Nakayama, M.

AU - Kondo, Takeshi

AU - Tian, Z.

AU - Ishikawa, J. J.

AU - Halim, M.

AU - Bareille, C.

AU - Malaeb, W.

AU - Kuroda, K.

AU - Tomita, T.

AU - Ideta, S.

AU - Tanaka, K.

AU - Matsunami, M.

AU - Kimura, S.

AU - Inami, N.

AU - Ono, K.

AU - Kumigashira, H.

AU - Balents, L.

AU - Nakatsuji, S.

AU - Shin, S.

PY - 2016/7/27

Y1 - 2016/7/27

N2 - We present an angle-resolved photoemission study of the electronic structure of the three-dimensional pyrochlore iridate Nd2Ir2O7 through its magnetic metal-insulator transition. Our data reveal that metallic Nd2Ir2O7 has a quadratic band, touching the Fermi level at the Γ point, similar to that of Pr2Ir2O7. The Fermi node state is, therefore, a common feature of the metallic phase of the pyrochlore iridates. Upon cooling below the transition temperature, this compound exhibits a gap opening with an energy shift of quasiparticle peaks like a band gap insulator. The quasiparticle peaks are strongly suppressed, however, with further decrease of temperature, and eventually vanish at the lowest temperature, leaving a nondispersive flat band lacking long-lived electrons. We thereby identify a remarkable crossover from Slater to Mott insulators with decreasing temperature. These observations explain the puzzling absence of Weyl points in this material, despite its proximity to the zero temperature metal-insulator transition.

AB - We present an angle-resolved photoemission study of the electronic structure of the three-dimensional pyrochlore iridate Nd2Ir2O7 through its magnetic metal-insulator transition. Our data reveal that metallic Nd2Ir2O7 has a quadratic band, touching the Fermi level at the Γ point, similar to that of Pr2Ir2O7. The Fermi node state is, therefore, a common feature of the metallic phase of the pyrochlore iridates. Upon cooling below the transition temperature, this compound exhibits a gap opening with an energy shift of quasiparticle peaks like a band gap insulator. The quasiparticle peaks are strongly suppressed, however, with further decrease of temperature, and eventually vanish at the lowest temperature, leaving a nondispersive flat band lacking long-lived electrons. We thereby identify a remarkable crossover from Slater to Mott insulators with decreasing temperature. These observations explain the puzzling absence of Weyl points in this material, despite its proximity to the zero temperature metal-insulator transition.

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Slater to Mott Crossover in the Metal to Insulator Transition of Nd2Ir2 O7

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