How ferroelectric BaTiO$_3$ can tune a two-dimensional electron gas at the interface of LaInO3 and BaSnO$_3$: a first-principles study
The emerging interest in two-dimensional electron gases (2DEGs), formed at interfaces between two insulating oxide perovskites poses crucial fundamental question in view of future electronic devices. In the framework of density-functional theory, we investigate the possibility to control the charact...
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Zusammenfassung: | The emerging interest in two-dimensional electron gases (2DEGs), formed at
interfaces between two insulating oxide perovskites poses crucial fundamental
question in view of future electronic devices. In the framework of
density-functional theory, we investigate the possibility to control the
characteristics of the 2DEG formed at the LaInO$_3$/BaSnO$_3$ interface by
including a ferroelectric BaTiO$_3$ layer. To do so, we examine how the
orientation of the ferroelectric polarization impacts density and confinement
of the 2DEG. We find that aligning the ferroelectric polarization toward
(outward) the LaInO$_3$/BaSnO$_3$ interface leads to an accumulation
(depletion) of the interfacial 2DEG. Varying its magnitude, we find a linear
effect on the 2DEG charge density that is confined within the BaSnO$_3$ side.
Analysis of the optimized geometries revels that inclusion of the BaTiO$_3$
block makes structural distortions at the LaInO$_3$/BaSnO$_3$ less pronounced,
which, in turn, enhances the 2DEG density. Thicker ferroelectric layers allow
for reaching higher polarization magnitudes. We discuss the mechanisms behind
all these findings and rationalize how the characteristics of both 2DEG and 2D
hole gases can be controlled in the considered heterostructures. Overall, our
results can be generalized to other combinations of ferroelectric, polar, and
nonpolar materials. |
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DOI: | 10.48550/arxiv.2203.03881 |