Abstract
Abstract For seven decades, when referring to A-15 superconductors, we meant metallic A3B alloys (where A is a transition metal, and B is group IIIB and IVB elements) discovered by Hardy and Hulm (1953 Phys. Rev. 89 884). Nb3Ge exhibited the highest superconducting transition temperature, Tc = 23K, among these alloys. One of these alloys, Nb3Sn, is the primary material in modern applied superconductivity. Recently, Guo et al (2024 Natl Sci. Rev. nwae149, https://doi.org/10.1093/nsr/nwae149) extended the family of superconductors where the metallic ions are arranged in the beta tungsten (A-15) sublattice by observation of Tc ,zero = 81K in the La4H23 phase compressed at P = 118 GPa. Despite the fact that La4H23 has much lower Tc in comparison with the near-room-temperature superconducting LaH10 phase (Tc ,zero = 250K at P ∼ 200 GPa) discovered by Drozdov et al (2019 Nature 569 531), La4H23 holds the record for the highest Tc within the A-15 family. Cross et al (2024 Phys. Rev. B 109 L020503) confirmed the high-temperature superconductivity in compressed La4H23. In this paper, we analyzed available experimental data measured in La4H23 and found that this superconductor exhibits a nanograined structure, 5.5 nm ⩽ D ⩽ 35 nm, low crystalline strain, | ε | ⩽ 0.003, strong electron–phonon interaction, 1.5 ⩽ λe-ph⩽ 2.55, and a moderate level of nonadiabaticity, 0.18 ⩽ Θ D /T F ⩽ 0.22 (where Θ D is the Debye temperature, and T F is the Fermi temperature). We found that the derived Θ D /T F and Tc /T F values for the La4H23 phase are similar to those in MgB2, cuprates, pnictides, and the near-room-temperature superconductors H3S and LaH10. To the memory of Martin J. Ryan, man and scientist who taught EFT the intricacies of X-ray diffraction.
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