Divine P. Kumah scite author profile

The complete atomic structure of a five-monolayer film of LaAlO3 on SrTiO3 has been determined for the first time by surface x-ray diffraction in conjunction with the coherent Bragg rod analysis phase-retrieval method and further structural refinement. Cationic mixing at the interface results in dilatory distortions and the formation of metallic La(1-x)SrxTiO3. By invoking electrostatic potential minimization, the ratio of Ti{4+}/Ti{3+} across the interface was determined, from which the lattice dilation could be quantitatively explained using ionic radii considerations. The correctness of this model is supported by density functional theory calculations. Thus, the formation of a quasi-two-dimensional electron gas in this system is explained, based on structural considerations.

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Orbital Engineering in Symmetry-Breaking Polar Heterostructures

Disa

et al. 2015

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Active Silicon Integrated Nanophotonics: Ferroelectric BaTiO₃ Devices

et al. 2014

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The integration of complex oxides on silicon presents opportunities to extend and enhance silicon technology with novel electronic, magnetic, and photonic properties. Among these materials, barium titanate (BaTiO3) is a particularly strong ferroelectric perovskite oxide with attractive dielectric and electro-optic properties. Here we demonstrate nanophotonic circuits incorporating ferroelectric BaTiO3 thin films on the ubiquitous silicon-on-insulator (SOI) platform. We grow epitaxial, single-crystalline BaTiO3 directly on SOI and engineer integrated waveguide structures that simultaneously confine light and an RF electric field in the BaTiO3 layer. Using on-chip photonic interferometers, we extract a large effective Pockels coefficient of 213 ± 49 pm/V, a value more than six times larger than found in commercial optical modulators based on lithium niobate. The monolithically integrated BaTiO3 optical modulators show modulation bandwidth in the gigahertz regime, which is promising for broadband applications.

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Divine P. Kumah

Structural Basis for the Conducting Interface betweenLaAlO3andSrTiO3

Orbital Engineering in Symmetry-Breaking Polar Heterostructures

Active Silicon Integrated Nanophotonics: Ferroelectric BaTiO₃ Devices

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Divine P. Kumah

Structural Basis for the Conducting Interface betweenLaAlO3andSrTiO3

Orbital Engineering in Symmetry-Breaking Polar Heterostructures

Active Silicon Integrated Nanophotonics: Ferroelectric BaTiO3 Devices

Contact Info

Product

Resources

About

Active Silicon Integrated Nanophotonics: Ferroelectric BaTiO₃ Devices