Nature Communications (Jun 2022)

Paramagnons and high-temperature superconductivity in a model family of cuprates

  • Lichen Wang,
  • Guanhong He,
  • Zichen Yang,
  • Mirian Garcia-Fernandez,
  • Abhishek Nag,
  • Kejin Zhou,
  • Matteo Minola,
  • Matthieu Le Tacon,
  • Bernhard Keimer,
  • Yingying Peng,
  • Yuan Li

DOI
https://doi.org/10.1038/s41467-022-30918-z
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 8

Abstract

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Abstract Cuprate superconductors have the highest critical temperatures (T c) at ambient pressure, yet a consensus on the superconducting mechanism remains to be established. Finding an empirical parameter that limits the highest reachable T c can provide crucial insight into this outstanding problem. Here, in the first two Ruddlesden-Popper members of the model Hg-family of cuprates, which are chemically nearly identical and have the highest T c among all cuprate families, we use inelastic photon scattering to reveal that the energy of magnetic fluctuations may play such a role. In particular, we observe the single-paramagnon spectra to be nearly identical between the two compounds, apart from an energy scale difference of ~30% which matches their difference in T c. The empirical correlation between paramagnon energy and maximal T c is further found to extend to other cuprate families with relatively high T c’s, hinting at a fundamental connection between them.