Inferior interfacial superconductivity in 1 UC FeSe/SrVO3/SrTiO3 with screened interfacial electron-phonon coupling
Abstract
Monolayer FeSe/TiOx and FeSe/FeOx interfaces exhibit significant superconductivity enhancement compared to bulk FeSe, with interfacial electron-phonon coupling (EPC) playing a crucial role. However, the reduced dimensionality in monolayer FeSe, which may drive superconducting fluctuations, complicates the understanding of the enhancement mechanisms. Here we construct a new superconducting interface: monolayer FeSe/SrVO3/SrTiO3, in which the itinerant electrons of highly metallic SrVO3 films can screen all the high-energy Fuchs-Kliewer phonons, including those of SrTiO3, making it the first FeSe/oxide system with screened interfacial EPC while maintaining the monolayer FeSe thickness. Despite comparable doping levels, the heavily electron-doped monolayer FeSe/SrVO3 exhibits a lower pairing temperature (Tg 48 K) than FeSe/SrTiO3 and FeSe/LaFeO3. Our findings disentangle the contributions of interfacial EPC from dimensionality on enhancing Tg in FeSe/oxide interfaces, underscoring the importance of interfacial EPC in Tg enhancement. This FeSe/VOx interface also provides a platform for studying the interfacial superconductivity.
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