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arxiv: 2502.06063 · v1 · pith:VKZLVSMDnew · submitted 2025-02-09 · ❄️ cond-mat.supr-con · cond-mat.mtrl-sci· cond-mat.str-el

Tailoring the normal and superconducting state properties of ternary scandium tellurides, Sc₆MTe₂ (M = Fe, Ru and Ir) through chemical substitution

classification ❄️ cond-mat.supr-con cond-mat.mtrl-scicond-mat.str-el
keywords electronsuperconductingcompoundschallengescorrelationsd-electronmathrmmetal
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The pursuit of a unifying theory for non-BCS superconductivity has faced significant challenges. One approach to overcome such challenges is to perform systematic investigations into superconductors containing \textit{d}-electron metals in order to elucidate their underlying mechanisms. Recently, the Sc$_6M$Te$_2$ ($M$ = d-electron metal) family has emerged as a unique series of isostructural compounds exhibiting superconductivity across a range of $3d$, $4d$, and $5d$ electron systems. In this study, we employ muon spin rotation, neutron diffraction, and magnetisation techniques to probe the normal and superconducting states at a microscopic level. Our findings reveal extremely dilute superfluid densities that correlate with the critical temperature ($T_\mathrm{c}$). Additionally, we identify high-temperature normal-state transitions that are inversely correlated with $T_\mathrm{c}$. Notably, in Sc$_6$FeTe$_2$, the superconducting pairing symmetry is most likely characterised by two nodeless gaps, one of which closes as electron correlations diminish in the Ru and Ir Sc$_6M$Te$_2$ compounds. These results classify the Sc$_6M$Te$_2$ compounds ($M$ = Fe, Ru, Ir) as unconventional bulk superconductors, where the normal-state transitions and superconducting properties are governed by the interplay between electron correlations and spin-orbit coupling of the d-electron metal.

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