B. H. Hoerman scite author profile

The dielectric response of epitaxial BaTiO3 thin films deposited on MgO was measured through surface electrodes as a function of applied bias, frequency, and temperature. The room temperature value of the dielectric constant was ∼500 with a dissipation factor, tan(δ), of 0.05 at 100 kHz. Measurements varying the bias field showed hysteresis of the dielectric response and a tunability of 30% for a maximum applied field of ∼7 MV/m. The frequency response of the dielectric constant is well described by a Curie–von Schweidler power law with an exponent ∼0.04 in the range 1 kHz–13 MHz. The films undergo a diffuse phase transition at temperatures higher than the bulk Curie temperature. The behavior of the dielectric response is attributed to the presence of residual strain in the epitaxial thin films.

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Epitaxial thin films of MgO on Si using metalorganic molecular beam epitaxy

Niu

Hoerman

Wessels

2000

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Epitaxial cubic MgO thin films have been deposited on single crystal Si(001) substrates by metalorganic molecular beam epitaxy. The Mg source was the solid precursor magnesium acetylacetonate and a rf excited oxygen plasma was the oxidant. The growth process involved initial formation of an epitaxial β-SiC interlayer followed by direct deposition of a MgO overlayer. The films were characterized by in situ reflection high energy electron diffraction, x-ray diffraction, conventional and high resolution transmission electron microscopy, atomic force microscopy, Auger electron spectroscopy, and Fourier transform infrared spectroscopy. The β-SiC interlayer had an epitaxial relationship such that SiC(001)∥Si(001) and SiC [110]∥Si [110]. The SiC interlayer showed a columnar grain structure with planar defects including twin bands and stacking faults. The MgO overlayer showed an epitaxial relationship given by MgO(001)∥Si(001) and MgO[110]∥Si[110]. No evidence of twins in the MgO layers was observed.

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Fast time-resolved x-ray diffraction in BaTiO3 films subjected to a strong high-frequency electric field

Zolotoyabko

Quintana

Hoerman

et al. 2002

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The pulsed synchrotron radiation from the Advanced Photon Source of Argonne National Laboratory was used to measure the dynamic structural response in 200-nm-thick BaTiO3 ferroelectric films, in situ, under the application of a high-frequency electric field. X-ray diffraction measurements were performed in the stroboscopic mode, i.e., by synchronizing the x-ray bursts with the electric-field periodicity. Time-dependent variations of lattice parameters were derived from the electric-field-induced distortions of the diffraction profiles. Drastic reduction of the relaxation time, from 6.9 ns at 71.69 MHz down to 0.7 ns at 521.36 MHz, was found with an increase of the electric-field frequency.

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Dynamic response of the dielectric and electro-optic properties of epitaxial ferroelectric thin films

2002

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An analysis of the dynamic dielectric and electro-optic relaxation response of thin-film ferroelectrics is presented. The analysis is based upon the relaxation of ferroelectric domains with a continuous distribution of sizes given by percolation theory. The resulting temporal response is described by the expression ⌽(t) ϰt Ϫm exp͓Ϫ(t/) ␤ ͔. The analysis was applied to KNbO 3 thin films. Measurements of the polarization, birefringence, and dielectric transients show qualitative agreement with the model over 11 orders of magnitude in time.

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Phase stability of epitaxial KTa_xNb_1−xO₃ thin films deposited by metalorganic chemical vapor deposition

et al. 2003

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The phase stability of epitaxial KTaxNb1−xO3 (0 ≤ x ≤ 1) thin films, with compositions over the entire solid solution range, was investigated. KTaxNb1−xO3 thin films were deposited on (100) MgAl2O4 substrates by metalorganic chemical vapor deposition. Films with compositions x ≤ 0.30 were orthorhombic, as determined by x-ray diffraction. Dielectric measurements at room temperature indicated the presence of morphotropic phase boundaries at x = 0.30 and at x = 0.74. Temperature-dependent measurements of the dielectric constant for KNbO3 from 80 to 800 K indicated three structural phase transitions at 710, 520, and 240 K. For intermediate compositions, a decrease in the Curie and tetragonal–orthorhombic transition temperatures was observed with increasing Ta atomic percent, similar to the bulk phase equilibrium. In contrast to bulk materials, an increase in the orthorhombic–rhombohedral transition temperature with increasing x was observed for the films, resulting in the stabilization of a rhombohedral phase at room temperature for compositions 0.45 ≤ x ≤ 0.73. Differences between the phase stability for the thin films and bulk were attributed to lattice misfit strain.

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B. H. Hoerman

Dielectric properties of epitaxial BaTiO3 thin films

Epitaxial thin films of MgO on Si using metalorganic molecular beam epitaxy

Fast time-resolved x-ray diffraction in BaTiO3 films subjected to a strong high-frequency electric field

Dynamic response of the dielectric and electro-optic properties of epitaxial ferroelectric thin films

Phase stability of epitaxial KTa_xNb_1−xO₃ thin films deposited by metalorganic chemical vapor deposition

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B. H. Hoerman

Dielectric properties of epitaxial BaTiO3 thin films

Epitaxial thin films of MgO on Si using metalorganic molecular beam epitaxy

Fast time-resolved x-ray diffraction in BaTiO3 films subjected to a strong high-frequency electric field

Dynamic response of the dielectric and electro-optic properties of epitaxial ferroelectric thin films

Phase stability of epitaxial KTaxNb1−xO3 thin films deposited by metalorganic chemical vapor deposition

Contact Info

Product

Resources

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Phase stability of epitaxial KTa_xNb_1−xO₃ thin films deposited by metalorganic chemical vapor deposition