Abstract
Until now, the quasiamorphous (QA) phase in ${\text{BaTiO}}_{3}$ (BTO), ${\text{SrTiO}}_{3}$ (STO), and ${\text{BaZrO}}_{3}$ was achieved by pulling a thick film through a steep temperature gradient. Here, we show that a room-temperature deposited ultrathin film, subsequently annealed in ${\text{O}}_{2}$ can also produce a QA phase. The atomic, electronic, and ferroelectric (FE) structure of a QA, ultrathin BTO grown on STO were studied by x-ray diffraction (XRD), x-ray photoelectron diffraction (XPD), x-ray photoelectron spectroscopy (XPS), and piezoforce microscopy (PFM). The absence of long-range order is confirmed by in- and out-of-plane XRD as well as Ti 2$p$ XPD. FE polarized domains with good retention have been successfully written into the QA film and exhibit a clear $P\ensuremath{-}E$ hysteresis loop. Substrate clamping frustrates volume expansion during annealing leading to a QA film. Photoelectron spectroscopy confirms a similar overall electronic structure as for thicker films but with some significant differences. Simple charge-transfer arguments are not sufficient to explain the high-resolution core-level spectra. Ba, Ti, and O all show components associated with a surface region. We suggest that the observation of such a component in the Ti 2$p$ spectrum is linked with the high dynamic charge tensor induced by the large off-center displacement of the Ti ion.
Published Version
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