Ferroelectric 1800; a-a nanostripe and nanoneedle domains in thin BaTiO3 films prepared with focused-ion beam

Matsumoto T.Okamoto M.

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Ferroelectric 1800; a-a nanostripe and nanoneedle domains in thin BaTiO3 films prepared with focused-ion beam

机译：铁电1800;薄BATIO3薄膜中的A-A纳米纹和纳尼罩结构域，其具有聚焦离子束

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Ferroelectric 1800; a-a nanostripe domain structure was observed by transmission electron microscopy in a thin (ʧD;100 nm) film prepared from a bulk single crystal of BaTiO3 with focused-ion beam (FIB). The domain consists of alternate sequences of narrow and wide anti-parallel domains. High-magnification images of a stable 1800; nanoneedle domain, with a sharp tip penetrating into the nanostripe domains, were also obtained. Two-dimensional phase-field simulations based on time-dependent GinzburgߝLandau (TDGL) equations suggest a possibility that such a domain structure is created and stabilized by an in-plane anisotropic stress and an anisotropic mechanical boundary condition of the thin film prepared with FIB.

机译：铁电1800;通过用聚焦离子束（FIB）的块状单晶制备的薄（ʧD; 100nm）薄膜中的透射电子显微镜观察A-A纳米过度域结构。该域由窄宽的窄域域的替代序列组成。稳定1800的高倍率图像;还获得了尖锐尖端的纳尼德域，也得到了尖锐的尖端。基于时间依赖的GinzburgߝLandau（TDGL）方程的二维相场模拟表明，通过面内各向异性应力和用FIB制备的薄膜的各向异性机械边界条件产生和稳定这种畴结构的可能性。

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《Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on》 |2010年第10期|p.2127-2133|共7页
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Matsumoto T.Okamoto M.;
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CentralResearchLaboratory Hitachi Ltd. Tokyo Japan;

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Ferroelectric 1800; a-a nanostripe and nanoneedle domains in thin BaTiO3 films prepared with focused-ion beam

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