Direct Visualization of the Nematic Superconductivity in CuxBi2Se3

Ran Tao; Ya Jun Yan; Xi Liu; Zhi Wei Wang; Yoichi Ando; Qiang Hua Wang; Tong Zhang; Dong Lai Feng

doi:10.1103/PhysRevX.8.041024

Direct Visualization of the Nematic Superconductivity in CuxBi₂Se₃

Ran Tao^*, Ya Jun Yan, Xi Liu, Zhi Wei Wang, Yoichi Ando, Qiang Hua Wang, Tong Zhang, Dong Lai Feng

^*Corresponding author for this work

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

79 Citations (Scopus)

Abstract

CuxBi₂Se₃ hosts both topological surface states and bulk superconductivity. It has been identified recently as a topological superconductor (TSC) with an extraordinary nematic, i.e., C2-symmetric superconducting state and odd-parity pairing. Here, using scanning tunneling microscopy, we directly examine the response of the superconductivity of CuxBi₂Se₃ to magnetic field. Under out-of-plane fields (B), we discover elongated magnetic vortices hosting zero-bias conductance peaks consistent with the Majorana bound states expected in a TSC. Under in-plane fields (B//), the average superconducting gap exhibits twofold symmetry with field orientation; the long C2 symmetry axes are pinned to the dihedral mirror planes under B//=0.5 T but rotate slightly under B//=1.0 T. Moreover, a nodeless Δ4x gap structure is semiquantitatively determined for the first time. Our data paint a microscopic picture of the nematic superconductivity in CuxBi₂Se₃ and pose strong constraints on theory.

Original language	English
Article number	041024
Journal	Physical Review X
Volume	8
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevX.8.041024
Publication status	Published - 12 Nov 2018
Externally published	Yes

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10.1103/PhysRevX.8.041024

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title = "Direct Visualization of the Nematic Superconductivity in CuxBi2Se3 ",

abstract = "CuxBi2Se3 hosts both topological surface states and bulk superconductivity. It has been identified recently as a topological superconductor (TSC) with an extraordinary nematic, i.e., C2-symmetric superconducting state and odd-parity pairing. Here, using scanning tunneling microscopy, we directly examine the response of the superconductivity of CuxBi2Se3 to magnetic field. Under out-of-plane fields (B), we discover elongated magnetic vortices hosting zero-bias conductance peaks consistent with the Majorana bound states expected in a TSC. Under in-plane fields (B//), the average superconducting gap exhibits twofold symmetry with field orientation; the long C2 symmetry axes are pinned to the dihedral mirror planes under B//=0.5 T but rotate slightly under B//=1.0 T. Moreover, a nodeless Δ4x gap structure is semiquantitatively determined for the first time. Our data paint a microscopic picture of the nematic superconductivity in CuxBi2Se3 and pose strong constraints on theory.",

author = "Ran Tao and Yan, {Ya Jun} and Xi Liu and Wang, {Zhi Wei} and Yoichi Ando and Wang, {Qiang Hua} and Tong Zhang and Feng, {Dong Lai}",

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AU - Tao, Ran

AU - Yan, Ya Jun

AU - Liu, Xi

AU - Wang, Zhi Wei

AU - Ando, Yoichi

AU - Wang, Qiang Hua

AU - Zhang, Tong

AU - Feng, Dong Lai

PY - 2018/11/12

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N2 - CuxBi2Se3 hosts both topological surface states and bulk superconductivity. It has been identified recently as a topological superconductor (TSC) with an extraordinary nematic, i.e., C2-symmetric superconducting state and odd-parity pairing. Here, using scanning tunneling microscopy, we directly examine the response of the superconductivity of CuxBi2Se3 to magnetic field. Under out-of-plane fields (B), we discover elongated magnetic vortices hosting zero-bias conductance peaks consistent with the Majorana bound states expected in a TSC. Under in-plane fields (B//), the average superconducting gap exhibits twofold symmetry with field orientation; the long C2 symmetry axes are pinned to the dihedral mirror planes under B//=0.5 T but rotate slightly under B//=1.0 T. Moreover, a nodeless Δ4x gap structure is semiquantitatively determined for the first time. Our data paint a microscopic picture of the nematic superconductivity in CuxBi2Se3 and pose strong constraints on theory.

AB - CuxBi2Se3 hosts both topological surface states and bulk superconductivity. It has been identified recently as a topological superconductor (TSC) with an extraordinary nematic, i.e., C2-symmetric superconducting state and odd-parity pairing. Here, using scanning tunneling microscopy, we directly examine the response of the superconductivity of CuxBi2Se3 to magnetic field. Under out-of-plane fields (B), we discover elongated magnetic vortices hosting zero-bias conductance peaks consistent with the Majorana bound states expected in a TSC. Under in-plane fields (B//), the average superconducting gap exhibits twofold symmetry with field orientation; the long C2 symmetry axes are pinned to the dihedral mirror planes under B//=0.5 T but rotate slightly under B//=1.0 T. Moreover, a nodeless Δ4x gap structure is semiquantitatively determined for the first time. Our data paint a microscopic picture of the nematic superconductivity in CuxBi2Se3 and pose strong constraints on theory.

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Direct Visualization of the Nematic Superconductivity in CuxBi₂Se₃

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