'Spin-driven' crystal lattice distortion in frustrated magnet CuFeO2: Synchrotron X-ray diffraction study

Terada N; Mitsuda S; Ohsumi H; Tajima K

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'Spin-driven' crystal lattice distortion in frustrated magnet CuFeO2: Synchrotron X-ray diffraction study

机译：失磁磁体CuFeO2中的“自旋驱动”晶格畸变：同步加速器X射线衍射研究

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We have performed synchrotron radiation X-ray diffraction measurement,,, on a triangular lattice antiferromagnet CuFeO2 using the single crystal. The crystal lattice symmetry lowers from hexagonal to orthorhombic below the magnetic phase transition (from a partially disordered phase to four-sublattice phase) temperature T-N2. In addition, superlattice reflections were observed below TN2; this suggests that the "scalene triangle model" lattice distortion splits the nearest neighbor exchange interaction in the basal plane into three different exchange interactions. This distortion lifts the vast degeneracy of the strongly frustrated spin system, leading to the four-sublattice ground state. Thus we argue that the lattice degree of freedom plays an important role in the stabilization of the four-sublattice ground state in CuFeO2.

机译：我们已经使用单晶对三角晶格反铁磁体CuFeO2进行了同步辐射X射线衍射测量。晶格对称性从六边形降低到正交角，低于磁相变（从部分无序相到四子晶格相）的温度T-N2。另外，在TN2下方观察到超晶格反射。这表明“斜角三角形模型”的晶格畸变将基面中最近的邻居交换相互作用分为三个不同的交换相互作用。这种扭曲消除了强烈受挫的自旋系统的巨大退化，从而导致了四子晶格的基态。因此，我们认为晶格自由度在CuFeO2中四子晶格基态的稳定中起着重要作用。

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《Journal of the Physical Society of Japan》 |2006年第2期|共4页
作者
Terada N; Mitsuda S; Ohsumi H; Tajima K;
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正文语种 eng
中图分类物理学;
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CuFeO2; crystal lattice distortion; spin frustration; triangular lattice antiferromagnet; synchrotron radiation X-ray; PARTIALLY DISORDERED PHASE; TRIANGULAR-LATTICE; ANTIFERROMAGNET CUFEO2; CUFE1-XALXO2; MODEL;

机译：CuFeO2;晶格畸变;自旋失意;三角晶格反铁磁体;同步辐射X射线;无序相;三角形晶格;反铁磁CUFEO2;CUFE1-XALXO2;模型;

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1. "Spin-driven" crystal lattice distortion in frustrated magnet CuFeO2: Synchrotron X-ray diffraction study [J] . Terada N, Mitsuda S, Ohsumi H, Journal of the Physical Society of Japan . 2006,第2期

机译：失磁磁体CuFeO2中的“自旋驱动”晶格畸变：同步加速器X射线衍射研究
2. Analysis of Lattice Distortion in Multicrystalline Silicon for Photovoltaic Cells by Synchrotron White X-ray Microbeam Diffraction [J] . Takayoshi Shimura, Takuya Matsumiya, Naoki Morimoto, Materials science forum . 2012,第期

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3. Paracrystalline Lattice Distortion in Crystalline Pharmaceuticals Determination of Paracrystalline Lattice Distortion by Powder X-Ray Diffraction [J] . Eihei Fukuoka, Katsuhide Terada, Midori Makita, Chemical and Pharmaceutical Bulletin . 1995,第4期

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4. Analysis of Lattice Distortion in Multicrystalline Silicon for Photovoltaic Cells by Synchrotron White X-ray Microbeam Diffraction [C] . Takayoshi Shimura, Takuya Matsumiya, Naoki Morimoto, Defects-recognition, imaging and physics in semiconductors XIV. . 2012

机译：同步加速器白X射线微束衍射分析光伏电池用多晶硅中的晶格畸变
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7. Synchrotron Radiation. IV. Study on Physical Property by Synchrotron Radiation. 6. Analysis of Lattice Distortion in As-grown Silicon Single Crystals by Plane-wave X-Ray Topography Using Imaging Plates. [O] . Yoshihiro KUDO 1998

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'Spin-driven' crystal lattice distortion in frustrated magnet CuFeO2: Synchrotron X-ray diffraction study

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