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

Lichen Wang, Guanhong He, Zichen Yang, Mirian García‐Fernández, Abhishek Nag, Ke‐Jin Zhou, M. Minola, M. Le Tacon, B. Keimer, Y. Y. Peng, Yuan Li

2022Nature Communications47 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

CuprateSuperconductivityPhysicsCondensed matter physicsHigh-temperature superconductivityPhysics of Superconductivity and MagnetismAdvanced Condensed Matter PhysicsHigh-pressure geophysics and materials
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