Presence of $s$-wave pairing in Josephson junctions made of twisted ultrathin Bi$_2$Sr$_2$CaCu$_2$O$_{8+x}$ flakes
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

TL;DR
This study fabricates atomically precise twisted Bi2212 Josephson junctions and finds evidence for an $s$-wave pairing component, challenging the traditional $d$-wave pairing symmetry assumption in cuprates.
Contribution
The work demonstrates that atomic-level control of junction interfaces reveals persistent $s$-wave pairing in twisted cuprate junctions, providing new insights into pairing symmetry.
Findings
Uniform junctions show single tunneling branch behavior.
Josephson tunneling observed at 45-degree twist angle.
Results favor persistent $s$-wave order parameter.
Abstract
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 -wave pairing symmetry, those based on out-of-plane (-axis) Josephson junctions between two rotated cuprate blocks favor -wave pairing. In this work, we revisit the -axis experiment by fabricating Josephson junctions with atomic-level control in their…
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