氧化物-氧化物界面电子结构的直接k空间映射

Direct k-space mapping of the electronic structure in an oxide-oxide interface.

作者信息

Berner G, Sing M, Fujiwara H, Yasui A, Saitoh Y, Yamasaki A, Nishitani Y, Sekiyama A, Pavlenko N, Kopp T, Richter C, Mannhart J, Suga S, Claessen R

机构信息

Physikalisches Institut and Röntgen Center for Complex Materials Systems (RCCM), Universität Würzburg, Am Hubland, D-97074 Würzburg, Germany.

Division of Materials Physics, Graduate School of Engineering Science, Osaka University, Osaka 560-8531, Japan.

出版信息

Phys Rev Lett. 2013 Jun 14;110(24):247601. doi: 10.1103/PhysRevLett.110.247601. Epub 2013 Jun 12.

DOI:10.1103/PhysRevLett.110.247601

PMID:25165961

Abstract

The interface between LaAlO(3) and SrTiO(3) hosts a two-dimensional electron system of itinerant carriers, although both oxides are band insulators. Interface ferromagnetism coexisting with superconductivity has been found and attributed to local moments. Experimentally, it has been established that Ti 3d electrons are confined to the interface. Using soft x-ray angle-resolved resonant photoelectron spectroscopy we have directly mapped the interface states in k space. Our data demonstrate a charge dichotomy. A mobile fraction contributes to Fermi surface sheets, whereas a localized portion at higher binding energies is tentatively attributed to electrons trapped by O vacancies in the SrTiO(3). While photovoltage effects in the polar LaAlO(3) layers cannot be excluded, the apparent absence of surface-related Fermi surface sheets could also be fully reconciled in a recently proposed electronic reconstruction picture where the built-in potential in the LaAlO(3) is compensated by surface O vacancies serving also as a charge reservoir.

摘要

尽管 LaAlO₃ 和 SrTiO₃ 这两种氧化物都是带绝缘体，但它们的界面处存在着由巡游载流子构成的二维电子系统。已发现界面铁磁性与超导性共存，并归因于局域磁矩。实验表明，Ti 3d 电子被限制在界面处。利用软 X 射线角分辨共振光电子能谱，我们直接在 k 空间中绘制了界面态。我们的数据显示出电荷二分法。一个可移动部分对费米面片有贡献，而在较高结合能处的一个局域部分暂时归因于被 SrTiO₃ 中的 O 空位捕获的电子。虽然不能排除极性 LaAlO₃ 层中的光电压效应，但在最近提出的电子重构图景中，表面相关费米面片的明显缺失也可以得到充分解释，在该图景中，LaAlO₃ 中的内建电势由也作为电荷库的表面 O 空位补偿。

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氧化物-氧化物界面电子结构的直接k空间映射

Direct k-space mapping of the electronic structure in an oxide-oxide interface.

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