【 摘 要 】

The origin of the two-dimensional electron system (2DES) appearing at the (001) interface of band insulators SrTiO3 and LaAlO3 has been rationalized in the framework of a polar catastrophe scenario. This implies the existence of a critical thickness of polar LaAlO3 overlayer (4 u.c.) for the appearance of the 2DES: a polar catastrophe for thick LaAlO3 overlayer is avoided either through a Zener breakdown or a stabilization of donor defects at the LaAlO3 surface, both providing electrons to dope the substrate. The observation of a critical thickness is observed in experiments, supporting these hypotheses. Yet, there remains an open debate about which of these possible mechanisms actually occurs first. Using hybrid functional density functional theory, we re-examine these mechanisms at the same level of approximation. Particularly, we clarify the role of donor defects in these heterostructures and argue that, under usual growth conditions, electric-field driven stabilization of oxygen vacancies and hydrogen adsorbates at the LAO surface occurs at a smaller LAO thickness than required for the Zener breakdown.

【 授权许可】

Free