Quasi-1D Topological Nodal Vortex Line Phase in Doped Superconducting 3D Dirac Semimetals

Shengshan Qin; Lunhui Hu; Congcong Le; Jinfeng Zeng; Fu Chun Zhang; Chen Fang; Jiangping Hu

doi:10.1103/PhysRevLett.123.027003

Quasi-1D Topological Nodal Vortex Line Phase in Doped Superconducting 3D Dirac Semimetals

Shengshan Qin, Lunhui Hu, Congcong Le, Jinfeng Zeng, Fu Chun Zhang, Chen Fang, Jiangping Hu

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

39 Citations (Scopus)

Abstract

We study vortex bound states in three-dimensional (3D) superconducting Dirac semimetals with time reversal symmetry. We find that there exist robust gapless vortex bound states propagating along the vortex line in the s-wave superconducting state. We refer to this newly found phase as the quasi-1D nodal vortex line phase. According to the Altland-Zirnbauer classification, the phase is characterized by a topological index (ν;N) at kz=0 and kz=π, where ν is the Z2 topological invariant for a 0D class-D system and N is the Z topological invariant for a 0D class-A system. Furthermore, we show that the vortex end Majorana zero mode can coexist with the quasi-1D nodal phase in certain types of Dirac semimetals. The possible experimental observations and material realization of such nodal vortex line states are discussed.

Original language	English
Article number	027003
Journal	Physical Review Letters
Volume	123
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevLett.123.027003
Publication status	Published - 10 Jul 2019
Externally published	Yes

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title = "Quasi-1D Topological Nodal Vortex Line Phase in Doped Superconducting 3D Dirac Semimetals",

abstract = "We study vortex bound states in three-dimensional (3D) superconducting Dirac semimetals with time reversal symmetry. We find that there exist robust gapless vortex bound states propagating along the vortex line in the s-wave superconducting state. We refer to this newly found phase as the quasi-1D nodal vortex line phase. According to the Altland-Zirnbauer classification, the phase is characterized by a topological index (ν;N) at kz=0 and kz=π, where ν is the Z2 topological invariant for a 0D class-D system and N is the Z topological invariant for a 0D class-A system. Furthermore, we show that the vortex end Majorana zero mode can coexist with the quasi-1D nodal phase in certain types of Dirac semimetals. The possible experimental observations and material realization of such nodal vortex line states are discussed.",

author = "Shengshan Qin and Lunhui Hu and Congcong Le and Jinfeng Zeng and Zhang, {Fu Chun} and Chen Fang and Jiangping Hu",

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T1 - Quasi-1D Topological Nodal Vortex Line Phase in Doped Superconducting 3D Dirac Semimetals

AU - Qin, Shengshan

AU - Hu, Lunhui

AU - Le, Congcong

AU - Zeng, Jinfeng

AU - Zhang, Fu Chun

AU - Fang, Chen

AU - Hu, Jiangping

PY - 2019/7/10

Y1 - 2019/7/10

N2 - We study vortex bound states in three-dimensional (3D) superconducting Dirac semimetals with time reversal symmetry. We find that there exist robust gapless vortex bound states propagating along the vortex line in the s-wave superconducting state. We refer to this newly found phase as the quasi-1D nodal vortex line phase. According to the Altland-Zirnbauer classification, the phase is characterized by a topological index (ν;N) at kz=0 and kz=π, where ν is the Z2 topological invariant for a 0D class-D system and N is the Z topological invariant for a 0D class-A system. Furthermore, we show that the vortex end Majorana zero mode can coexist with the quasi-1D nodal phase in certain types of Dirac semimetals. The possible experimental observations and material realization of such nodal vortex line states are discussed.

AB - We study vortex bound states in three-dimensional (3D) superconducting Dirac semimetals with time reversal symmetry. We find that there exist robust gapless vortex bound states propagating along the vortex line in the s-wave superconducting state. We refer to this newly found phase as the quasi-1D nodal vortex line phase. According to the Altland-Zirnbauer classification, the phase is characterized by a topological index (ν;N) at kz=0 and kz=π, where ν is the Z2 topological invariant for a 0D class-D system and N is the Z topological invariant for a 0D class-A system. Furthermore, we show that the vortex end Majorana zero mode can coexist with the quasi-1D nodal phase in certain types of Dirac semimetals. The possible experimental observations and material realization of such nodal vortex line states are discussed.

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Quasi-1D Topological Nodal Vortex Line Phase in Doped Superconducting 3D Dirac Semimetals

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