Topological metallic phases in spin-orbit coupled bilayer systems

Hui Pan; Xin Li; Zhenhua Qiao; Cheng Cheng Liu; Yugui Yao; Shengyuan A. Yang

doi:10.1088/1367-2630/16/12/123015

Topological metallic phases in spin-orbit coupled bilayer systems

Hui Pan, Xin Li, Zhenhua Qiao, Cheng Cheng Liu, Yugui Yao, Shengyuan A. Yang

School of Physics

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

21 Citations (Scopus)

Abstract

We investigate the influence of different spinorbit couplings on topological phase transitions in the bilayer KaneMele model. We find that the competition between intrinsic spinorbit coupling and Rashba spinorbit coupling can lead to two dimensional topological metallic states with nontrivial topology. Such phases, although having a metallic bulk, still possess edge states with well defined topological invariants. Specifically, we show that with preserved time reversal symmetry the system can exhibit a Z₂-metallic phase with spin helical edge states and a nontrivial Z₂ invariant. When time reversal symmetry is broken, a Chern metallic phase could appear with chiral edge states and a nontrivial Chern invariant.

Original language	English
Article number	123015
Journal	New Journal of Physics
Volume	16
DOIs	https://doi.org/10.1088/1367-2630/16/12/123015
Publication status	Published - 8 Dec 2014

Keywords

KaneMele model
spin-orbit couplings
topological metallic states

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10.1088/1367-2630/16/12/123015

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title = "Topological metallic phases in spin-orbit coupled bilayer systems",

abstract = "We investigate the influence of different spinorbit couplings on topological phase transitions in the bilayer KaneMele model. We find that the competition between intrinsic spinorbit coupling and Rashba spinorbit coupling can lead to two dimensional topological metallic states with nontrivial topology. Such phases, although having a metallic bulk, still possess edge states with well defined topological invariants. Specifically, we show that with preserved time reversal symmetry the system can exhibit a Z2-metallic phase with spin helical edge states and a nontrivial Z2 invariant. When time reversal symmetry is broken, a Chern metallic phase could appear with chiral edge states and a nontrivial Chern invariant.",

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author = "Hui Pan and Xin Li and Zhenhua Qiao and Liu, {Cheng Cheng} and Yugui Yao and Yang, {Shengyuan A.}",

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AU - Li, Xin

AU - Qiao, Zhenhua

AU - Liu, Cheng Cheng

AU - Yao, Yugui

AU - Yang, Shengyuan A.

PY - 2014/12/8

Y1 - 2014/12/8

N2 - We investigate the influence of different spinorbit couplings on topological phase transitions in the bilayer KaneMele model. We find that the competition between intrinsic spinorbit coupling and Rashba spinorbit coupling can lead to two dimensional topological metallic states with nontrivial topology. Such phases, although having a metallic bulk, still possess edge states with well defined topological invariants. Specifically, we show that with preserved time reversal symmetry the system can exhibit a Z2-metallic phase with spin helical edge states and a nontrivial Z2 invariant. When time reversal symmetry is broken, a Chern metallic phase could appear with chiral edge states and a nontrivial Chern invariant.

AB - We investigate the influence of different spinorbit couplings on topological phase transitions in the bilayer KaneMele model. We find that the competition between intrinsic spinorbit coupling and Rashba spinorbit coupling can lead to two dimensional topological metallic states with nontrivial topology. Such phases, although having a metallic bulk, still possess edge states with well defined topological invariants. Specifically, we show that with preserved time reversal symmetry the system can exhibit a Z2-metallic phase with spin helical edge states and a nontrivial Z2 invariant. When time reversal symmetry is broken, a Chern metallic phase could appear with chiral edge states and a nontrivial Chern invariant.

KW - KaneMele model

KW - spin-orbit couplings

KW - topological metallic states

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JO - New Journal of Physics

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Topological metallic phases in spin-orbit coupled bilayer systems

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