Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} Flakes

Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} Flakes

Since the discovery of high-temperature superconductivity in cuprates, Josephson junction based phase-sensitive experiments are believed and used to provide the most convincing evidence for determining the pairing symmetry. Regardless of different junction materials and geometries used, quantum tunn...

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Main Authors: Yuying Zhu, Menghan Liao, Qinghua Zhang, Hong-Yi Xie, Fanqi Meng, Yaowu Liu, Zhonghua Bai, Shuaihua Ji, Jin Zhang, Kaili Jiang, Ruidan Zhong, John Schneeloch, Genda Gu, Lin Gu, Xucun Ma, Ding Zhang, Qi-Kun Xue
Format: Article
Language:English
Published: American Physical Society 2021-07-01
Series:Physical Review X
Online Access:http://doi.org/10.1103/PhysRevX.11.031011
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spelling doaj-b99588aeccda405197f3b0ac140a944d2021-07-15T14:21:58ZengAmerican Physical SocietyPhysical Review X2160-33082021-07-0111303101110.1103/PhysRevX.11.031011Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} FlakesYuying ZhuMenghan LiaoQinghua ZhangHong-Yi XieFanqi MengYaowu LiuZhonghua BaiShuaihua JiJin ZhangKaili JiangRuidan ZhongJohn SchneelochGenda GuLin GuXucun MaDing ZhangQi-Kun XueSince the discovery of high-temperature superconductivity in cuprates, Josephson junction based phase-sensitive experiments are believed and used to provide the most convincing evidence for determining the pairing symmetry. Regardless of different junction materials and geometries used, quantum tunneling involved in these experiments is essentially a nanoscale process, and thus, actual experimental results are extremely sensitive to atomic details of the junction structures. The situation has led to controversial results as to the nature of the pairing symmetry of cuprates: while in-plane junction experiments generally support d-wave pairing symmetry, those based on out-of-plane (c-axis) Josephson junctions between two rotated cuprate blocks favor s-wave pairing. In this work, we revisit the c-axis experiment by fabricating Josephson junctions with atomic-level control in their interface structure. We fabricate over 90 junctions of ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} (BSCCO) flakes by state-of-the-art exfoliation technique and obtain atomically flat junction interfaces in the whole junction regions as characterized by high-resolution transmission electron microscopy. Notably, the resultant uniform junctions at various twist angles all exhibit a single tunneling branch behavior, suggesting that only the first half of a unit cell on both sides of the twisted flakes is involved in the Josephson tunneling process. With such well-defined geometry and structure and the characteristic single tunneling branch, we repeatedly observe Josephson tunneling at a nominal twist angle of 45°, which is against the expectation from a purely d-wave pairing scenario. Our results strongly favor the scenario of a persistent s-wave order parameter in the junction.http://doi.org/10.1103/PhysRevX.11.031011
collection DOAJ
language English
format Article
sources DOAJ
author Yuying Zhu
Menghan Liao
Qinghua Zhang
Hong-Yi Xie
Fanqi Meng
Yaowu Liu
Zhonghua Bai
Shuaihua Ji
Jin Zhang
Kaili Jiang
Ruidan Zhong
John Schneeloch
Genda Gu
Lin Gu
Xucun Ma
Ding Zhang
Qi-Kun Xue
spellingShingle Yuying Zhu
Menghan Liao
Qinghua Zhang
Hong-Yi Xie
Fanqi Meng
Yaowu Liu
Zhonghua Bai
Shuaihua Ji
Jin Zhang
Kaili Jiang
Ruidan Zhong
John Schneeloch
Genda Gu
Lin Gu
Xucun Ma
Ding Zhang
Qi-Kun Xue
Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} Flakes
Physical Review X
author_facet Yuying Zhu
Menghan Liao
Qinghua Zhang
Hong-Yi Xie
Fanqi Meng
Yaowu Liu
Zhonghua Bai
Shuaihua Ji
Jin Zhang
Kaili Jiang
Ruidan Zhong
John Schneeloch
Genda Gu
Lin Gu
Xucun Ma
Ding Zhang
Qi-Kun Xue
author_sort Yuying Zhu
title Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} Flakes
title_short Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} Flakes
title_full Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} Flakes
title_fullStr Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} Flakes
title_full_unstemmed Presence of s-Wave Pairing in Josephson Junctions Made of Twisted Ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} Flakes
title_sort presence of s-wave pairing in josephson junctions made of twisted ultrathin bi_{2}sr_{2}cacu_{2}o_{8+x} flakes
publisher American Physical Society
series Physical Review X
issn 2160-3308
publishDate 2021-07-01
description Since the discovery of high-temperature superconductivity in cuprates, Josephson junction based phase-sensitive experiments are believed and used to provide the most convincing evidence for determining the pairing symmetry. Regardless of different junction materials and geometries used, quantum tunneling involved in these experiments is essentially a nanoscale process, and thus, actual experimental results are extremely sensitive to atomic details of the junction structures. The situation has led to controversial results as to the nature of the pairing symmetry of cuprates: while in-plane junction experiments generally support d-wave pairing symmetry, those based on out-of-plane (c-axis) Josephson junctions between two rotated cuprate blocks favor s-wave pairing. In this work, we revisit the c-axis experiment by fabricating Josephson junctions with atomic-level control in their interface structure. We fabricate over 90 junctions of ultrathin Bi_{2}Sr_{2}CaCu_{2}O_{8+x} (BSCCO) flakes by state-of-the-art exfoliation technique and obtain atomically flat junction interfaces in the whole junction regions as characterized by high-resolution transmission electron microscopy. Notably, the resultant uniform junctions at various twist angles all exhibit a single tunneling branch behavior, suggesting that only the first half of a unit cell on both sides of the twisted flakes is involved in the Josephson tunneling process. With such well-defined geometry and structure and the characteristic single tunneling branch, we repeatedly observe Josephson tunneling at a nominal twist angle of 45°, which is against the expectation from a purely d-wave pairing scenario. Our results strongly favor the scenario of a persistent s-wave order parameter in the junction.
url http://doi.org/10.1103/PhysRevX.11.031011
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