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Charge stripe manipulation of superconducting pairing symmetry transition

Author

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  • Chao Chen

    (Beijing Normal University
    Beijing Computational Science Research Center
    Naval University of Engineering)

  • Peigeng Zhong

    (Beijing Computational Science Research Center
    Harbin Institute of Technology)

  • Xuelei Sui

    (Beijing Computational Science Research Center
    Beijing University of Chemical Technology)

  • Runyu Ma

    (Beijing Normal University)

  • Ying Liang

    (Beijing Normal University
    Ministry of Education)

  • Shijie Hu

    (Beijing Normal University
    Beijing Computational Science Research Center)

  • Tianxing Ma

    (Beijing Normal University
    Ministry of Education)

  • Hai-Qing Lin

    (Beijing Normal University
    Beijing Computational Science Research Center
    Zhejiang University)

  • Bing Huang

    (Beijing Normal University
    Beijing Computational Science Research Center)

Abstract

Charge stripes have been widely observed in many different types of unconventional superconductors, holding varying periods ( $${{\mathcal{P}}}$$ P ) and intensities. However, a general understanding on the interplay between charge stripes and superconducting properties is still incomplete. Here, using large-scale unbiased numerical simulations on a general inhomogeneous Hubbard model, we discover that the charge-stripe period $${{\mathcal{P}}}$$ P , which is variable in different real material systems, could dictate the pairing symmetries—d wave for $${{\mathcal{P}}}\ge 4,s$$ P ≥ 4 , s and d waves for $${{\mathcal{P}}}\le 3$$ P ≤ 3 . In the latter, tuning hole doping and charge-stripe amplitude can trigger a d-s wave transition and magnetic-correlation shift, where the d-wave state converts to a pairing-density wave state, competing with the s wave. These interesting phenomena arise from an unusual stripe-induced selection rule of pairing symmetries around on-stripe region and within inter-stripe region, giving rise to a critical point of $${{\mathcal{P}}}=3$$ P = 3 for the phase transition. In general, our findings offer important insights into the differences in the superconducting pairing mechanisms across many $${{\mathcal{P}}}$$ P -dependent superconducting systems, highlighting the decisive role of charge stripe.

Suggested Citation

  • Chao Chen & Peigeng Zhong & Xuelei Sui & Runyu Ma & Ying Liang & Shijie Hu & Tianxing Ma & Hai-Qing Lin & Bing Huang, 2024. "Charge stripe manipulation of superconducting pairing symmetry transition," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-53841-x
    DOI: 10.1038/s41467-024-53841-x
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