Nature Communications (Jul 2024)

Reversible modulation of superconductivity in thin-film NbSe2 via plasmon coupling

  • Guanghui Cheng,
  • Meng-Hsien Lin,
  • Hung-Ying Chen,
  • Dongli Wang,
  • Zheyan Wang,
  • Wei Qin,
  • Zhenyu Zhang,
  • Changgan Zeng

DOI
https://doi.org/10.1038/s41467-024-50452-4
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 7

Abstract

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Abstract In recent years, lightwave has stood out as an ultrafast, non-contact control knob for developing compact superconducting circuitry. However, the modulation efficiency is limited by the low photoresponse of superconductors. Plasmons, with the advantages of strong light-matter interaction, present a promising route to overcome the limitations. Here we achieve effective modulation of superconductivity in thin-film NbSe2 via near-field coupling to plasmons in gold nanoparticles. Upon resonant plasmon excitation, the superconductivity of NbSe2 is substantially suppressed. The modulation factor exceeds 40% at a photon flux of 9.36 × 1013 s−1mm−2, and the effect is significantly diminished for thicker NbSe2 samples. Our observations can be theoretically interpreted by invoking the non-equilibrium electron distribution in NbSe2 driven by the plasmon-associated evanescent field. Finally, a reversible plasmon-driven superconducting switch is realized in this system. These findings highlight plasmonic tailoring of quantum states as an innovative strategy for superconducting electronics.