Quantized Andreev conductance in semiconductor nanowires

Yichun Gao; Wenyu Song; Yuhao Wang; Zuhan Geng; Zhan Cao; Zehao Yu; Shuai Yang; Jiaye Xu; Fangting Chen; Zonglin Li; Ruidong Li; Lining Yang; Zhaoyu Wang; Shan Zhang; Xiao Feng; Tiantian Wang; Yunyi Zang; Lin Li; Dong E. Liu; Runan Shang; Qi Kun Xue; Ke He; Hao Zhang

doi:10.1103/bwp9-7dsd

Quantized Andreev conductance in semiconductor nanowires

Yichun Gao
, Wenyu Song
, Yuhao Wang
, Zuhan Geng
, Zhan Cao
, Zehao Yu
, Shuai Yang
, Jiaye Xu
, Fangting Chen
, Zonglin Li
, Ruidong Li
, Lining Yang
, Zhaoyu Wang
, Shan Zhang
, Xiao Feng
, Tiantian Wang
, Yunyi Zang
, Lin Li
, Dong E. Liu
, Runan Shang

Qi Kun Xue, Ke He^*, Hao Zhang^*

^*Corresponding author for this work

Tsinghua University
Beijing Academy of Quantum Information Sciences
Frontier Science Center for Quantum Information
Hefei National Laboratory
Southern University of Science and Technology

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

2 Scopus citations

Abstract

One-dimensional electron systems can exhibit quantized conductance. The plateau conductance doubles if the transport is dominated by Andreev reflection. Here, we report quantized conductance observed in both Andreev and normal-state transport in PbTe-Pb and PbTe-In hybrid nanowires. The Andreev plateau is observed at 4e²/h, twice the normal plateau value of 2e²/h. In comparison, Andreev conductance in the best-optimized III-V nanowires is nonquantized due to mode-mixing-induced dips (a disorder effect), despite the quantization of normal-state transport. The negligible mode mixing in PbTe hybrids indicates an unprecedented low-disorder transport regime for nanowire devices, beneficial for Majorana research.

Original language	English
Article number	L061004
Journal	Physical Review Applied
Volume	23
Issue number	6
DOIs	https://doi.org/10.1103/bwp9-7dsd
State	Published - Jun 2025
Externally published	Yes

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title = "Quantized Andreev conductance in semiconductor nanowires",

abstract = "One-dimensional electron systems can exhibit quantized conductance. The plateau conductance doubles if the transport is dominated by Andreev reflection. Here, we report quantized conductance observed in both Andreev and normal-state transport in PbTe-Pb and PbTe-In hybrid nanowires. The Andreev plateau is observed at 4e2/h, twice the normal plateau value of 2e2/h. In comparison, Andreev conductance in the best-optimized III-V nanowires is nonquantized due to mode-mixing-induced dips (a disorder effect), despite the quantization of normal-state transport. The negligible mode mixing in PbTe hybrids indicates an unprecedented low-disorder transport regime for nanowire devices, beneficial for Majorana research.",

author = "Yichun Gao and Wenyu Song and Yuhao Wang and Zuhan Geng and Zhan Cao and Zehao Yu and Shuai Yang and Jiaye Xu and Fangting Chen and Zonglin Li and Ruidong Li and Lining Yang and Zhaoyu Wang and Shan Zhang and Xiao Feng and Tiantian Wang and Yunyi Zang and Lin Li and Liu, \{Dong E.\} and Runan Shang and Xue, \{Qi Kun\} and Ke He and Hao Zhang",

note = "Publisher Copyright: {\textcopyright} 2025 American Physical Society.",

year = "2025",

month = jun,

doi = "10.1103/bwp9-7dsd",

language = "英语",

volume = "23",

journal = "Physical Review Applied",

issn = "2331-7019",

publisher = "American Physical Society",

number = "6",

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TY - JOUR

T1 - Quantized Andreev conductance in semiconductor nanowires

AU - Gao, Yichun

AU - Song, Wenyu

AU - Wang, Yuhao

AU - Geng, Zuhan

AU - Cao, Zhan

AU - Yu, Zehao

AU - Yang, Shuai

AU - Xu, Jiaye

AU - Chen, Fangting

AU - Li, Zonglin

AU - Li, Ruidong

AU - Yang, Lining

AU - Wang, Zhaoyu

AU - Zhang, Shan

AU - Feng, Xiao

AU - Wang, Tiantian

AU - Zang, Yunyi

AU - Li, Lin

AU - Liu, Dong E.

AU - Shang, Runan

AU - Xue, Qi Kun

AU - He, Ke

AU - Zhang, Hao

PY - 2025/6

Y1 - 2025/6

N2 - One-dimensional electron systems can exhibit quantized conductance. The plateau conductance doubles if the transport is dominated by Andreev reflection. Here, we report quantized conductance observed in both Andreev and normal-state transport in PbTe-Pb and PbTe-In hybrid nanowires. The Andreev plateau is observed at 4e2/h, twice the normal plateau value of 2e2/h. In comparison, Andreev conductance in the best-optimized III-V nanowires is nonquantized due to mode-mixing-induced dips (a disorder effect), despite the quantization of normal-state transport. The negligible mode mixing in PbTe hybrids indicates an unprecedented low-disorder transport regime for nanowire devices, beneficial for Majorana research.

AB - One-dimensional electron systems can exhibit quantized conductance. The plateau conductance doubles if the transport is dominated by Andreev reflection. Here, we report quantized conductance observed in both Andreev and normal-state transport in PbTe-Pb and PbTe-In hybrid nanowires. The Andreev plateau is observed at 4e2/h, twice the normal plateau value of 2e2/h. In comparison, Andreev conductance in the best-optimized III-V nanowires is nonquantized due to mode-mixing-induced dips (a disorder effect), despite the quantization of normal-state transport. The negligible mode mixing in PbTe hybrids indicates an unprecedented low-disorder transport regime for nanowire devices, beneficial for Majorana research.

UR - https://www.scopus.com/pages/publications/105024982579

U2 - 10.1103/bwp9-7dsd

DO - 10.1103/bwp9-7dsd

M3 - 文章

AN - SCOPUS:105024982579

SN - 2331-7019

VL - 23

JO - Physical Review Applied

JF - Physical Review Applied

IS - 6

M1 - L061004

ER -

Quantized Andreev conductance in semiconductor nanowires

Abstract

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