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arxiv: 2411.03824 · v2 · pith:G4V37VOCnew · submitted 2024-11-06 · ❄️ cond-mat.mtrl-sci · cond-mat.str-el· cond-mat.supr-con

Coexistence of high electron-mobility, unpaired spins, and superconductivity at high carrier density SrTiO₃-based interfaces

classification ❄️ cond-mat.mtrl-sci cond-mat.str-elcond-mat.supr-con
keywords srtiosuperconductingbandcarrierdensitydomeelectronhigh
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The $t_{2g}$ band-structure of SrTiO$_3$-based two-dimensional electron gasses (2DEGs), have been found to play a role in features such as the superconducting dome, high-mobility transport, and the magnitude of spin-orbit coupling. This adds to the already very diverse range of phenomena, including magnetism and extreme magnetoresistance, exhibited by this particular material platform. Tuning and/or combining these intriguing attributes could yield significant progress within quantum and spintronics technologies. Doing so demands precise control of the parameters, which requires a better understanding of the factors that affect them. Here we present effects of the $t_{2g}$ band-order inversion, stemming from the growth of spinel-structured $\gamma$-Al$_2$O$_3$ onto perovskite SrTiO$_3$. Electronic transport measurements show that with LaAlO$_3$/SrTiO$_3$ as the reference, the carrier density and electron mobility are enhanced, and the sample displays a reshaping of the superconducting dome. Additionally, unpaired spins are evidenced by increasing Anomalous Hall Effect with decreasing temperature, entering the same temperature range as the superconducting transition, and a Kondo-like upturn in the sheet resistance. Finally, it is argued that the high-mobility $d_{xz/yz}$-band is more likely than the $d_{xy}$-band to host the supercurrent.

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