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加倉井 和久; 脇本 秀一; 石渡 晋太郎*; 奥山 大輔*; 西 正和*; 徳永 祐介*; 有馬 孝尚*; 田口 康二郎*; 十倉 好紀*
no journal, ,
The discovery of magnetoelectric (ME) effects caused by a cycloidal spin order has initiated an intense research on new class of ME materials. Among them one interesting class of materials is the hexaferrites such as Y-type (AMeFeO: Me=transition metal), M-type (AFeO: A=Pb, Ca, Sr, Ba, etc.), where types of elementary blocks and their stacking order are different. These materials show a variety of complex magnetic ordering. In this presentation recent neutron diffraction experiments on multiferroic hexaferrites performed at the JRR-3 Neutron Science Facility of Japan Atomic Energy Agency (JAEA) are reported.
加倉井 和久; 脇本 秀一; 松田 雅昌*; 石渡 晋太郎*; 奥山 大輔*; 田口 康二郎*; 十倉 好紀*; 西 正和*; 中島 多朗*; 満田 節生*; et al.
no journal, ,
In studying modern functional materials, one is often confronted with complex spin configurations, for example, non-collinear, incommensurate magnetic structure such as helimagnetic structure as a result of frustrated magnetic interactions. Since the giant functional responses in these materials are direct consequences of these complicated magnetic structures, the detailed knowledge of the structure is mandatory to understand the essence of the magnetic functional materials. In this presentation some recent results on complex magnetic materials such as frustrated and multiferroic systems are reported, where the polarized neutron investigations provided important insight into the complex behavior of these functional materials.