Gate-tuned Aharonov-Bohm interference of surface states in a quasiballistic Dirac semimetal nanowire

Ben Chuan Lin; Shuo Wang; Li Xian Wang; Cai Zhen Li; Jin Guang Li; Dapeng Yu; Zhi Min Liao

doi:10.1103/PhysRevB.95.235436

Gate-tuned Aharonov-Bohm interference of surface states in a quasiballistic Dirac semimetal nanowire

Ben Chuan Lin
, Shuo Wang
, Li Xian Wang
, Cai Zhen Li
, Jin Guang Li
, Dapeng Yu
, Zhi Min Liao^*

^*Corresponding author for this work

Peking University
Southern University of Science and Technology
Collaborative Innovation Center of Quantum Matter

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

37 Citations (Scopus)

Abstract

We report an observation of a topologically protected transport of surface carriers in a quasiballistic Cd3As2 nanowire. The nanowire is thin enough for the spin-textured surface carriers to form 1D subbands, demonstrating conductance oscillations with gate voltage even without magnetic field. The π-phase shift of Aharonov-Bohm oscillations can periodically appear/disappear by tuning gate voltage continuously. Such a π-phase shift stemming from the Berry phase demonstrates the topological nature of surface states. The topologically protected transport of the surface states is further revealed by four-terminal nonlocal measurements.

Original language	English
Article number	235436
Journal	Physical Review B
Volume	95
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevB.95.235436
Publication status	Published - 28 Jun 2017
Externally published	Yes

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title = "Gate-tuned Aharonov-Bohm interference of surface states in a quasiballistic Dirac semimetal nanowire",

abstract = "We report an observation of a topologically protected transport of surface carriers in a quasiballistic Cd3As2 nanowire. The nanowire is thin enough for the spin-textured surface carriers to form 1D subbands, demonstrating conductance oscillations with gate voltage even without magnetic field. The π-phase shift of Aharonov-Bohm oscillations can periodically appear/disappear by tuning gate voltage continuously. Such a π-phase shift stemming from the Berry phase demonstrates the topological nature of surface states. The topologically protected transport of the surface states is further revealed by four-terminal nonlocal measurements.",

author = "Lin, \{Ben Chuan\} and Shuo Wang and Wang, \{Li Xian\} and Li, \{Cai Zhen\} and Li, \{Jin Guang\} and Dapeng Yu and Liao, \{Zhi Min\}",

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AU - Lin, Ben Chuan

AU - Wang, Shuo

AU - Wang, Li Xian

AU - Li, Cai Zhen

AU - Li, Jin Guang

AU - Yu, Dapeng

AU - Liao, Zhi Min

PY - 2017/6/28

Y1 - 2017/6/28

N2 - We report an observation of a topologically protected transport of surface carriers in a quasiballistic Cd3As2 nanowire. The nanowire is thin enough for the spin-textured surface carriers to form 1D subbands, demonstrating conductance oscillations with gate voltage even without magnetic field. The π-phase shift of Aharonov-Bohm oscillations can periodically appear/disappear by tuning gate voltage continuously. Such a π-phase shift stemming from the Berry phase demonstrates the topological nature of surface states. The topologically protected transport of the surface states is further revealed by four-terminal nonlocal measurements.

AB - We report an observation of a topologically protected transport of surface carriers in a quasiballistic Cd3As2 nanowire. The nanowire is thin enough for the spin-textured surface carriers to form 1D subbands, demonstrating conductance oscillations with gate voltage even without magnetic field. The π-phase shift of Aharonov-Bohm oscillations can periodically appear/disappear by tuning gate voltage continuously. Such a π-phase shift stemming from the Berry phase demonstrates the topological nature of surface states. The topologically protected transport of the surface states is further revealed by four-terminal nonlocal measurements.

UR - https://www.scopus.com/pages/publications/85023167012

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DO - 10.1103/PhysRevB.95.235436

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JF - Physical Review B

IS - 23

M1 - 235436

ER -

Gate-tuned Aharonov-Bohm interference of surface states in a quasiballistic Dirac semimetal nanowire

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