Superconducting dome of LaRu₃Si₂ under pressure

Materials with Kagome lattice are known for their exotic quantum properties such as charge density wave (CDW), unconventional superconductivity and topological states. LaRu₃Si₂ was discovered decades ago with the highest critical temperature (T_c ~ 7K) among RT₃Si₂ or RT₃B₂ (R = rare earth elements, T = transition metal) family [1]. Recently it attracted more attention due to being identified as a Kagome system with CDW order above room temperature [2], and unconventional superconductivity [3]. Previous work of muon spin relaxation/rotation on LaRu₃Si₂ under pressure up to 2 GPa [3] showed minimal effects of pressure, motivating us to study the effects of 30 times higher pressures. Here we report high pressure transport measurements on LaRu₃Si₂ in a diamond anvil cell up to 64.6 GPa. A superconducting dome was observed, with the maximum T_c of 8.75 K occurring at approximately 8.54 GPa. Superconductivity was not completely suppressed even at the highest measured pressure.



[1] H. Barz, Materials Research Bulletin 15, 1489 (1980).

[2] I. Plokhikh, C. Mielke III, et al. Commun Phys 7, 182 (2024).

[3] C. Mielke III, D. Das, et al. Phys. Rev. B 109, 134501 (2024).