Three-dimensional topological critical Dirac semimetal in AMgBi (A= K, Rb, Cs)

Congcong Le; Shengshan Qin; Xianxin Wu; Xia Dai; Peiyuan Fu; Chen Fang; Jiangping Hu

doi:10.1103/PhysRevB.96.115121

Three-dimensional topological critical Dirac semimetal in AMgBi (A= K, Rb, Cs)

Congcong Le, Shengshan Qin, Xianxin Wu, Xia Dai, Peiyuan Fu, Chen Fang, Jiangping Hu

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

48 Citations (Scopus)

Abstract

We predicted, using first principles calculation, that AMgBi (A= K, Rb, Cs) are symmetry-protected topological semimetals near the boundary of type-I and type-II Dirac semimetal phases, dubbed topological critical Dirac semimetals. In-plane compressive strain or doping Rb or Cs into KMgBi can drive the transition between the two phases. An effective theory is developed to describe the bands near the Fermi energy, by which we calculate the surface Fermi arcs and the Landau levels throughout the transition. We predict the key features of critical Dirac semimetals that can be observed in photoemission, quantum oscillation, and transport measurements.

Original language	English
Article number	115121
Journal	Physical Review B
Volume	96
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevB.96.115121
Publication status	Published - 12 Sept 2017
Externally published	Yes

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abstract = "We predicted, using first principles calculation, that AMgBi (A= K, Rb, Cs) are symmetry-protected topological semimetals near the boundary of type-I and type-II Dirac semimetal phases, dubbed topological critical Dirac semimetals. In-plane compressive strain or doping Rb or Cs into KMgBi can drive the transition between the two phases. An effective theory is developed to describe the bands near the Fermi energy, by which we calculate the surface Fermi arcs and the Landau levels throughout the transition. We predict the key features of critical Dirac semimetals that can be observed in photoemission, quantum oscillation, and transport measurements.",

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AU - Le, Congcong

AU - Qin, Shengshan

AU - Wu, Xianxin

AU - Dai, Xia

AU - Fu, Peiyuan

AU - Fang, Chen

AU - Hu, Jiangping

PY - 2017/9/12

Y1 - 2017/9/12

N2 - We predicted, using first principles calculation, that AMgBi (A= K, Rb, Cs) are symmetry-protected topological semimetals near the boundary of type-I and type-II Dirac semimetal phases, dubbed topological critical Dirac semimetals. In-plane compressive strain or doping Rb or Cs into KMgBi can drive the transition between the two phases. An effective theory is developed to describe the bands near the Fermi energy, by which we calculate the surface Fermi arcs and the Landau levels throughout the transition. We predict the key features of critical Dirac semimetals that can be observed in photoemission, quantum oscillation, and transport measurements.

AB - We predicted, using first principles calculation, that AMgBi (A= K, Rb, Cs) are symmetry-protected topological semimetals near the boundary of type-I and type-II Dirac semimetal phases, dubbed topological critical Dirac semimetals. In-plane compressive strain or doping Rb or Cs into KMgBi can drive the transition between the two phases. An effective theory is developed to describe the bands near the Fermi energy, by which we calculate the surface Fermi arcs and the Landau levels throughout the transition. We predict the key features of critical Dirac semimetals that can be observed in photoemission, quantum oscillation, and transport measurements.

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Three-dimensional topological critical Dirac semimetal in AMgBi (A= K, Rb, Cs)

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