|Abstract||Real part of complex relative dielectric value is relatively decreased as large as similar to 5% from 50 K to 200 K in CaCu3Ti4O12, by applying a 6-T static magnetic field. CaCu3Ti4O12 is thus implied primarily by the negative magnetodielectric effect, as a unified dielectric system in which 1-D finite dipole chains of B-site titanium ions, coexist with a collective of polaron-like 3d-electrons of A-site copper ions: the dipole chains are thermally activated for lattice ionic polarization above 50 K, and suppressed by the short-range hop of these quasi-particles, while their long-range movement are for bulk electronic polarization above 151 K. (C) 2013 AIP Publishing LLC.|
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K. Chen,C. X. Huang,X. R. Zhang,et al. Negative magnetodielectric effect in CaCu3Ti4O12[J]. Journal of Applied Physics,2013,114(23).