Bent Electronic Band Structure Induced by Ferroelectric Polarization

TL;DR

This paper provides experimental evidence of ferroelectric band bending in BaTiO3 thin films, revealing how ferroelectric polarization influences electronic structures and could help understand electric polarization origins.

Contribution

It presents the first direct experimental observation of ferroelectric band bending using angle-resolved hard x-ray photoemission spectra.

Findings

Ferroelectric band bending varies across depth regions.

Outer shell electrons show larger energy shifts than inner shell electrons.

Energy shifts correlate with the atomic configuration of soft phonon modes.

Abstract

Bent band structures have been empirically described in ferroelectric materials to explain the functioning of recently developed ferroelectric tunneling junction and photovoltaic devices. This report presents experimental evidence for ferroelectric band bending, which was observed in the depth profiles of atomic orbitals of angle-resolved hard x-ray photoemission spectra of ferroelectric BaTiO3 thin films. The ferroelectric bent band structure is separated into three depth regions; the shallowest and deepest regions are slightly modulated by the screening effect at surface and interface, respectively, and the intermediate region exhibits the pure ferroelectric effect. In the pure ferroelectric bent band structure, we found that the binding energy of outer shell electrons shows a larger shift than that of inner shell electrons, and that the difference in energy shift is correlated with the atomic configuration of the soft phonon mode. These findings could lead to a simple understanding of the origin of electric polarization.