Topology-Driven Magnetic Quantum Phase Transition in Topological Insulators

Jinsong Zhang; Cui‐Zu Chang; Peizhe Tang; Zuocheng Zhang; Xiao Feng; Kang Li; Lili Wang; Xi Chen; Chao‐Xing Liu; Wenhui Duan; Ke He; Qi-Kun Xue; Xu-Cun Ma; Yayu Wang

doi:10.1126/science.1230905

Topology-Driven Magnetic Quantum Phase Transition in Topological Insulators

Jinsong Zhang(Tsinghua University), Cui‐Zu Chang(Institute of Physics), Peizhe Tang(Tsinghua University), Zuocheng Zhang(Tsinghua University), Xiao Feng(Institute of Physics), Kang Li(Institute of Physics), Lili Wang(Institute of Physics), Xi Chen(Tsinghua University), Chao‐Xing Liu(Pennsylvania State University), Wenhui Duan(Tsinghua University), Ke He(Institute of Physics), Qi-Kun Xue(Institute of Physics), Xu-Cun Ma(Institute of Physics), Yayu Wang(Tsinghua University)

Science

March 28, 2013

10.1126/science.1230905

Cited by 243

Abstract

The breaking of time reversal symmetry in topological insulators may create previously unknown quantum effects. We observed a magnetic quantum phase transition in Cr-doped Bi2(SexTe1-x)3 topological insulator films grown by means of molecular beam epitaxy. Across the critical point, a topological quantum phase transition is revealed through both angle-resolved photoemission measurements and density functional theory calculations. We present strong evidence that the bulk band topology is the fundamental driving force for the magnetic quantum phase transition. The tunable topological and magnetic properties in this system are well suited for realizing the exotic topological quantum phenomena in magnetic topological insulators.

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