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    Please use this identifier to cite or link to this item: http://tkuir.lib.tku.edu.tw:8080/dspace/handle/987654321/55591

    Title: The dielectric properties of La(Mg0.5Ti0.5)O3 ceramics studied by Raman-scattering, infrared reflectivity spectroscopy, and first-principles calculations
    Authors: Liu, Hsiang-Lin;Hsueh, Hung-Chung;Lin, I-Nan;Yang, Ming-Ti;Lee, Wei-Chung;Chen, Yi-Chun;Chia, Chia-Ta;Cheng, Hsiu-Fung
    Contributors: 淡江大學物理學系
    Date: 2011-05-17
    Issue Date: 2011-08-23 23:04:12 (UTC+8)
    Publisher: Bristol: Institute of Physics Publishing Ltd.
    Abstract: La(Mg0.5Ti0.5)O3 (LMT) ceramics were prepared by either the solid-state reaction (LMT)SS or the citric-acid chemical method (LMT)CA. A combination of Raman scattering, infrared reflectivity, and first-principles calculations was carried out to elucidate the correlation between lattice dynamics and the dielectric properties of these materials. Twelve Raman-active phonons are observed in both samples, displaying similar frequency positions. Interestingly, the Ag phonon (g11 mode) of (LMT)SS at about 717 cm − 1 involving the oxygen octahedron breathing vibrations demonstrates a narrower linewidth, suggesting its better crystallinity. Furthermore, an infrared-active u2 phonon band due to the vibrations of OI and OII layers, which possesses the largest oscillator strength, exhibits stronger intensity for (LMT)SS, as compared with those for (LMT)CA. Additionally, the Q × f values (the product of dielectric Q values and measurement frequency) of (LMT)SS estimated from either microwave cavity or infrared spectroscopic measurements are larger than those of (LMT)CA. These results indicate that the better coherence of lattice vibrations in (LMT)SS leads to its higher Q × f value, providing evidence for a strong connection between optical spectroscopic behavior and microwave dielectric characteristics in these materials.
    Relation: Journal of Physics: Condensed Matter 23(22), 225901(8pages)
    DOI: 10.1088/0953-8984/23/22/225901
    Appears in Collections:[Graduate Institute & Department of Physics] Journal Article

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