Phase structure of topological insulators by lattice strong-coupling expansion

Yasufumi Araki; Taro Kimura; Akihiko Sekine; Kentaro Nomura; Takashi Z. Nakano

Phase structure of topological insulators by lattice strong-coupling expansion

Yasufumi Araki, Taro Kimura, Akihiko Sekine, Kentaro Nomura, Takashi Z. Nakano

Research output: Contribution to journal › Conference article › peer-review

Abstract

The effect of the strong electron correlation on the topological phase structure of 2-dimensional (2D) and 3D topological insulators is investigated, in terms of lattice gauge theory. The effective model for noninteracting system is constructed similarly to the lattice fermions with the Wilson term, corresponding to the spin-orbit coupling. Introducing the electron-electron interaction as the coupling to the gauge field, we analyzed the behavior of emergent orders by the strong coupling expansion methods. We show that there appears a new phase with the in-plane antiferromagnetic order in the 2D topological insulator, which is similar to the so-called "Aoki phase" in lattice QCD with Wilson ferions. In the 3D case, on the other hand, there does not appear such a new phase, and the electron correlation results in the shift of the phase boundary between the topological phase and the normal phase.

Original language	English
Article number	050
Journal	Proceedings of Science
Volume	29-July-2013
Publication status	Published - 2013
Externally published	Yes
Event	31st International Symposium on Lattice Field Theory, LATTICE 2013 - Mainz, Germany Duration: Jul 29 2013 → Aug 3 2013

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Cite this

@article{5ed53bf4a6e9472e923cb739f1e0775e,

title = "Phase structure of topological insulators by lattice strong-coupling expansion",

abstract = "The effect of the strong electron correlation on the topological phase structure of 2-dimensional (2D) and 3D topological insulators is investigated, in terms of lattice gauge theory. The effective model for noninteracting system is constructed similarly to the lattice fermions with the Wilson term, corresponding to the spin-orbit coupling. Introducing the electron-electron interaction as the coupling to the gauge field, we analyzed the behavior of emergent orders by the strong coupling expansion methods. We show that there appears a new phase with the in-plane antiferromagnetic order in the 2D topological insulator, which is similar to the so-called {"}Aoki phase{"} in lattice QCD with Wilson ferions. In the 3D case, on the other hand, there does not appear such a new phase, and the electron correlation results in the shift of the phase boundary between the topological phase and the normal phase.",

author = "Yasufumi Araki and Taro Kimura and Akihiko Sekine and Kentaro Nomura and Nakano, {Takashi Z.}",

year = "2013",

language = "English",

volume = "29-July-2013",

journal = "Proceedings of Science",

issn = "1824-8039",

publisher = "Sissa Medialab Srl",

note = "31st International Symposium on Lattice Field Theory, LATTICE 2013 ; Conference date: 29-07-2013 Through 03-08-2013",

}

TY - JOUR

T1 - Phase structure of topological insulators by lattice strong-coupling expansion

AU - Araki, Yasufumi

AU - Kimura, Taro

AU - Sekine, Akihiko

AU - Nomura, Kentaro

AU - Nakano, Takashi Z.

PY - 2013

Y1 - 2013

N2 - The effect of the strong electron correlation on the topological phase structure of 2-dimensional (2D) and 3D topological insulators is investigated, in terms of lattice gauge theory. The effective model for noninteracting system is constructed similarly to the lattice fermions with the Wilson term, corresponding to the spin-orbit coupling. Introducing the electron-electron interaction as the coupling to the gauge field, we analyzed the behavior of emergent orders by the strong coupling expansion methods. We show that there appears a new phase with the in-plane antiferromagnetic order in the 2D topological insulator, which is similar to the so-called "Aoki phase" in lattice QCD with Wilson ferions. In the 3D case, on the other hand, there does not appear such a new phase, and the electron correlation results in the shift of the phase boundary between the topological phase and the normal phase.

AB - The effect of the strong electron correlation on the topological phase structure of 2-dimensional (2D) and 3D topological insulators is investigated, in terms of lattice gauge theory. The effective model for noninteracting system is constructed similarly to the lattice fermions with the Wilson term, corresponding to the spin-orbit coupling. Introducing the electron-electron interaction as the coupling to the gauge field, we analyzed the behavior of emergent orders by the strong coupling expansion methods. We show that there appears a new phase with the in-plane antiferromagnetic order in the 2D topological insulator, which is similar to the so-called "Aoki phase" in lattice QCD with Wilson ferions. In the 3D case, on the other hand, there does not appear such a new phase, and the electron correlation results in the shift of the phase boundary between the topological phase and the normal phase.

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UR - http://www.scopus.com/inward/citedby.url?scp=84976315497&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:84976315497

SN - 1824-8039

VL - 29-July-2013

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 050

T2 - 31st International Symposium on Lattice Field Theory, LATTICE 2013

Y2 - 29 July 2013 through 3 August 2013

ER -

Phase structure of topological insulators by lattice strong-coupling expansion

Abstract

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