Giant Thermopower in Quasi-One-Dimensional LaAlO₃/SrTiO₃ Quantum Wires

SrTiO₃-based heterointerfaces possess new effects ranging from superconductivity to magnetism. In particular, the two-dimensional (2D) LaAlO₃/SrTiO₃ interface was previously shown to have highly enhanced and oscillating thermopower when back-gated close to the insulating state [1]. Here we investigated the electrical and thermoelectric transport properties of quasi-one-dimensional (1D) LaAlO₃/SrTiO₃ quantum wires [2] at a low temperature of 80 mK. We find significantly enhanced and oscillating thermopower for the quantum wires, with values that are comparable to reports for 2D LaAlO₃/SrTiO₃ [1]. The Mott relation, which governs the diffusive thermopower of non-interacting electrons, works surprisingly well despite the highly ballistic nature of electron transport and evidence of electron-electron interaction in these quantum wires. Our results suggest that the highly enhanced thermopower in 2D SrTiO₃-based systems may originate from naturally formed quasi-1D channels at the heterointerfaces.

[1] I. Pallecchi et al., Nature Communications 6, 6678 (2015).
[2] A. Annadi et al., Nano Lett 18, 4473 (2018).