A high pressure neutron study of colossal magnetoresistant NdMnAsO0.95F0.05

Wildman E. J.; Tucker M. G.; Mclaughlin A. C.

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A high pressure neutron study of colossal magnetoresistant NdMnAsO0.95F0.05

机译：巨大磁阻NdMnAsO0.95F0.05的高压中子研究

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A high pressure neutron diffraction study of the oxypnictide NdMnAsO0.95F0.05 has been performed at temperatures of 290-383K and pressures up to 8.59 GPa. The results demonstrate that the antiferromagnetic order of the Mn spins is robust to pressures of up to 8.59 GPa. T-N is enhanced from 360 to 383K upon applying an external pressure of 4.97 GPa, a rate of 4.63KGPa(-1). NdMnAsO0.95F0.05 is shown to violate Bloch's rule which would suggest that NdMnAsO0.95F0.05 is on the verge of a localized to itinerant transition. There is no evidence of a structural transition but applied pressure tends to result in more regular As-Mn-As and Nd-O-Nd tetrahedra. The unit cell is significantly more compressible along the c-axis than the a-axis, as the interlayer coupling is weaker than the intrinsic bonds contained within NdO and MnAs slabs.

机译：在290-383K的温度和高达8.59 GPa的压力下，进行了氧化氧NdMnAsO0.95F0.05的高压中子衍射研究。结果表明，Mn自旋的反铁磁顺序对于高达8.59 GPa的压力具有鲁棒性。在施加4.97 GPa，4.63KGPa（-1）的外部压力时，T-N从360提高到383K。已显示NdMnAsO0.95F0.05违反了布洛赫定律，这表明NdMnAsO0.95F0.05处于局部到流动过渡的边缘。没有证据表明发生结构转变，但施加压力往往会导致更规则的As-Mn-As和Nd-O-Nd四面体。由于层间耦合比NdO和MnAs平板中包含的本征键弱，因此晶胞沿c轴的可压缩性比a轴大得多。

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《Journal of Physics. Condensed Matter》 |2015年第11期|共7页
作者
Wildman E. J.; Tucker M. G.; Mclaughlin A. C.;
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正文语种 eng
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CMR; high pressure; neutron diffraction;

机译：CMR;高压;中子衍射;

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1. A high pressure neutron study of colossal magnetoresistant NdMnAsO0.95F0.05 [J] . Wildman E. J., Tucker M. G., Mclaughlin A. C. Journal of Physics. Condensed Matter . 2015,第11期

机译：巨大磁阻NdMnAsO0.95F0.05的高压中子研究
2. Atomic Scale Studies of La/Sr Ordering in Colossal Magnetoresistant La2-2xSr1 +2xMn2O7 Single Crystals [J] . Roldan Manuel A., Oxley Mark P., Li Qingan, Microscopy and microanalysis: The official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada . 2014,第6期

机译：La / Sr有序磁阻La2-2xSr1 + 2xMn2O7单晶的原子尺度研究
3. Evolution of the conducting phase topology at the percolation threshold in colossal magnetoresistance manganites: A magnetic small-angle neutron scattering study [J] . Damien Saurel, rnCharles Simon, rnAlain Pautrat, Physical review . 2010,第5期

机译：巨大磁阻锰矿中渗流阈值处导电相拓扑的演化：磁性小角中子散射研究
4. NEUTRONICS STUDIES ON A GENERIC PRESSURE-CHANNEL REACTOR WITH NUCLEAR STEAM SUPERHEAT [C] . Matthew Baldock, Wargha Peiman, Andrei Vincze, International conference on nuclear engineering . 2014

机译：核蒸汽过热的通用压力通道反应器的中子学研究
5. The relationship between local structure and magnetization in colossal magnetoresistant manganites. [D] . Downward, Lisa Marie. 2008

机译：巨大磁阻锰矿中局部结构与磁化强度之间的关系。
6. A Variable Temperature Synchrotron X-ray Diffraction Study of Colossal Magnetoresistant NdMnAsO0.95F0.05 [O] . E. J. Wildman, A. C. Mclaughlin -1

机译：耐磁大NdMnAsO0.95F0.05的变温同步辐射X射线衍射研究
7. A high pressure neutron study of colossal magnetoresistant NdMnAsO0.95F0.05 [O] . E J Wildman, M G Tucker, A C Mclaughlin 2015

机译：巨大磁阻的高压中子研究Ndmnaso0.95f0.05

A high pressure neutron study of colossal magnetoresistant NdMnAsO0.95F0.05

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