The electronic properties of CaCuO2/La0.7Sr0.3MnO3 (LSMO) superlattices are determined by the electronic structure of the structural units and in particular their interfaces. The electronic structure of LSMO is governed by a metal-insulator transition, which is controlled by the thickness of the units and the sample temperature, resulting in a systematic downward band shift for metallic samples (i.e., thick LSMO units, low temperature). We present a systematic study of the changes in the valence-band structure and screening features in Mn 2p and Cu 2p core-level spectra. The results show that hybridization of Cu 3d orbitals with out-of-plane O 2p orbitals can be systematically tuned by controlling the band alignment at the interface via the metal-to-insulator transition of the LSMO units. This opens a new route to rational design of functional interfaces and control of orbital reconstructions.
Schlueter, C., Aruta, C., Yang, N., Tebano, A., Di Castro, D., Balestrino, G., et al. (2019). Tuning electronic reconstructions at the cuprate-manganite interface. PHYSICAL REVIEW MATERIALS, 3(9) [10.1103/PhysRevMaterials.3.094406].
Tuning electronic reconstructions at the cuprate-manganite interface
C. Aruta;N. Yang;A. Tebano;D. Di Castro;G. Balestrino;
2019-01-01
Abstract
The electronic properties of CaCuO2/La0.7Sr0.3MnO3 (LSMO) superlattices are determined by the electronic structure of the structural units and in particular their interfaces. The electronic structure of LSMO is governed by a metal-insulator transition, which is controlled by the thickness of the units and the sample temperature, resulting in a systematic downward band shift for metallic samples (i.e., thick LSMO units, low temperature). We present a systematic study of the changes in the valence-band structure and screening features in Mn 2p and Cu 2p core-level spectra. The results show that hybridization of Cu 3d orbitals with out-of-plane O 2p orbitals can be systematically tuned by controlling the band alignment at the interface via the metal-to-insulator transition of the LSMO units. This opens a new route to rational design of functional interfaces and control of orbital reconstructions.| File | Dimensione | Formato | |
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