Molecular Dynamics Simulation and X-ray Structural Studies of Mode-Coupling in Monoclinic K_2ZnBr_4 (Condensed Matter: Structure, Mechanical and Thermal Properties)
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概要
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The mode-coupling between the rotational and translational motions in the monoclinic K_2ZnBr_4 was studied by the molecular dynamics simulation and X-ray structure analysis. In the structure analysis, the Fourier analysis indicates that, in the paraelectric phase, electron densities of the bromines Br1 and Br2 on the mirror plane are fairly elongated in the b direction, while the density of the bromine Br3 at the general position spreads more or less in the a direction. In the ferroelectric phase, the elongation is suppressed in particular for Br1 and Br2, and the densities of Br3 and Br4, which are equivalent each other in the paraelectric phase, are nearly isotropic. In addition, Brl and Br2 displace in the b direction through the rotation of the ZnBr2/4- ion about the a axis. In the simulation, the ZnBr2/4- ions are treated as rigid-bodies. The trajectories of the bromines reproduce satisfactorily the characteristic feature of the Fourier maps. This means that the ZnBr2/4- ions are approximately regarded as rigid-bodies even in the real K_2ZnBr_4. The mode-coupling analysis shows that, in the ZnBr2/4- rigid-bodies, the rotational motion about the a axis and the translational motion in the b direction couple strongly. Moreover, the displacements of rotational and translational motions in the b direction are almost synchronous for Br1 and Br2, and almost asynchronous for Br3 and Br4.
- 社団法人日本物理学会の論文
- 2003-10-15
著者
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MACHIDA Mitsuo
Department of Physics, Kyushu University
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KOYANO Nobumitsu
Reserch Reactor Institute, Kyoto University
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KOYANO Nobumitsu
Research Reactor Institute, Kyoto University
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Machida M
Department Of Physics Kyushu University
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Machida Mitsuo
Department Of Chemistry And Physics Condensed Matter Kyosho University
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Mitsuo Machida
Department Of Physics Kyushu University
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ITHO Hideaki
Department of Physics, Kyushu University
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Itho Hideaki
Department Of Physics Kyushu University
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Koyano N
Reserch Reactor Institute Kyoto University
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Koyano Nobumitsu
Research Reactor Institute Kyoto University
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