### Session H5: Focus Session: Interfaces in Complex Oxides - Polar Interfaces and Ferroelectrics

8:00 AM–11:00 AM, Tuesday, February 28, 2012
Room: 206A

Chair: Susanne Stemmer, University of California, Santa Barbara

Abstract ID: BAPS.2012.MAR.H5.8

### Abstract: H5.00008 : Exploring and alleviating detrimental interface dipole effects in ultra-thin all-oxide metal-ferroelectric-metal heterostructures

9:48 AM–10:00 AM

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#### Authors:

Xiaohui Liu
(Department of Physics and Astronomy,University of Nebraska-Lincoln)

Yong Wang
(Department of Physics and Astronomy,University of Nebraska-Lincoln)

Pavel Lukashev
(Department of Physics and Astronomy,University of Nebraska-Lincoln)

J.D. Burton
(Department of Physics and Astronomy,University of Nebraska-Lincoln)

Evgeny Tsymbal
(Department of Physics and Astronomy,University of Nebraska-Lincoln)

Ultrathin-film metal-ferroelectric-metal heterostructures present an exciting prospect for switchable nanoelectronic memories and devices such as ferroelectric tunnel junctions. The main challenge is to realize ferroelectricity in ultrathin-films where detrimental interface effects become increasingly more pronounced as ferroelectric film thicknesses approach the nanoscale. We studied the ferroelectric polarization of BaTiO$_{3}$ in epitaxial SrRuO$_{3}$/BaTiO$_{3}$/SrRuO$_{3}$ junctions by first-principles density functional theory and phenomenological modeling. The calculations show that the presence of a RuO$_{2}$/BaO termination sequence at the SrRuO$_{3}$/BaTiO$_{3}$ interface leads to a pinned interface dipole and is therefore detrimental to the stability of ferroelectricity, leading to the disappearance of switchable polarization under a certain thickness. Here, we propose to alleviate this behavior by depositing a thin layer of SrTiO$_{3}$ at this interface to suppress the RuO$_{2}$/BaO interface termination sequence, thereby eliminating the associated unfavorable pinned interface dipole. By doing this we find, and experiments confirm, that a switchable ferroelectric state can be stabilized in much thinner heterostructures.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2012.MAR.H5.8