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arxiv: 2503.18346 · v2 · pith:SPP3U64Lnew · submitted 2025-03-24 · ❄️ cond-mat.supr-con · cond-mat.mtrl-sci

Enhanced Superconductivity and Mixed-dimensional Behaviour in Infinite-layer Samarium Nickelate Thin Films

classification ❄️ cond-mat.supr-con cond-mat.mtrl-sci
keywords infinite-layerrare-earthclearfilmsnickelatesuperconductivityaxisco-doped
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Rare-earth infinite-layer nickelates represent an emerging class of unconventional superconductors, with materials synthesis largely limited to early lanthanide compounds. Here, we report the synthesis and characterization of phase-pure superconducting samarium-based infinite-layer nickelate thin films, including the first demonstration of Sm$_{1-x}$Sr$_x$NiO$_2$, along with co-doped variants incorporating europium and calcium. These films, grown on LSAT (001) substrates, exhibit coherent lattice structures up to $\sim$ 9 nm thickness with minimal stacking faults. The co-doped compounds achieve a record-small $c$-axis parameter of 3.26 {\AA} and display remarkable superconducting transition temperatures up to 32.5 K. These results establish a clear correlation between decreasing $c$-axis parameter and increasing critical temperature across different rare-earth systems. In addition, angle-dependent magnetoresistance investigations reveal the existence of a hybrid mixture of 2D and 3D superconductivity in this novel system with enhanced coupling between the rare-earth 5d and Ni 3d orbitals, confirmed by resonant inelastic X-ray scattering experiments. As the concentration of Eu increases, the system exhibits a clear tendency towards 3D superconductivity. Furthermore, we observe distinctive negative magnetoresistance in the europium-containing samples. These findings advocate clear materials design principles for higher transition temperatures and exotic physics in infinite-layer nickelate superconductors through structural engineering of the rare-earth site.

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  1. Interlayer electronic coherence links magnetism and superconductivity in Ruddlesden-Popper nickelates

    cond-mat.str-el 2026-05 unverdicted novelty 6.0

    Axis-resolved transport measurements on RP nickelates show that stronger interlayer electronic coherence correlates with higher maximum Tc under pressure and sensitively tracks magnetic orders.