AI Article Synopsis

  • The text discusses the theoretical and experimental challenges of achieving superconductivity in kagome materials, particularly highlighting nonmagnetic vanadium-based variants that do not support the expected exotic superconductivity.
  • A new chromium-based kagome metal, CsCrSb, is introduced, characterized by strong electron correlations, frustrated magnetism, and flat bands near the Fermi level.
  • This material undergoes a phase transition at 55 K, with density-wave orders evolving under pressure, leading to the emergence of superconductivity between 3.65-8.0 GPa, peaking at 6.4 K when these orders are suppressed, suggesting connections to unconventional superconductivity.

Article Abstract

Superconductivity in a highly correlated kagome system has been theoretically proposed for years (refs. ), yet the experimental realization is hard to achieve. The recently discovered vanadium-based kagome materials, which exhibit both superconductivity and charge-density-wave orders, are nonmagnetic and weakly correlated. Thus these materials are unlikely to host the exotic superconductivity theoretically proposed. Here we report the discovery of a chromium-based kagome metal, CsCrSb, which is contrastingly featured with strong electron correlations, frustrated magnetism and characteristic flat bands close to the Fermi level. Under ambient pressure, this kagome metal undergoes a concurrent structural and magnetic phase transition at 55 K, with a stripe-like 4a structural modulation. At high pressure, the phase transition evolves into two transitions, possibly associated with charge-density-wave and antiferromagnetic spin-density-wave orderings. These density-wave-like orders are gradually suppressed with pressure and, remarkably, a superconducting dome emerges at 3.65-8.0 GPa. The maximum of the superconducting transition temperature, T = 6.4 K, appears when the density-wave-like orders are completely suppressed at 4.2 GPa, and the normal state exhibits a non-Fermi-liquid behaviour, reminiscent of unconventional superconductivity and quantum criticality in iron-based superconductors. Our work offers an unprecedented platform for investigating superconductivity in correlated kagome systems.

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Source
http://dx.doi.org/10.1038/s41586-024-07761-xDOI Listing

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