Experimental evidence for orthorhombic Fddd crystal structure in elemental yttrium above 100 GPa

Jonathan Buhot; Owen Moulding; Takaki Muramatsu; Israel Osmond; Sven Friedemann

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Experimental evidence for orthorhombic Fddd crystal structure in elemental yttrium above 100 GPa

机译：高于100GPa以上元素钇中正交FDDD晶体结构的实验证据

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We present electrical resistance measurements of elemental yttrium on bulk and film samples, and both exhibit superconductivity at very high pressures. We show that the pressure dependence of the superconducting transition temperature above 100 GPa is in good agreement with the predicted Fddd phase by Chen et al. [Phys. Rev. Lett. 109, 157004 (2012)]. This result together with a Rietveld refinement made on x-ray data at 123 GPa from Samudrala et al. [J. Phys. Condens. Matter 24, 362201 (2012)] offer strong evidence that the atomic structure of yttrium above 100 GPa is orthorhombic Fddd. Furthermore, our process of evaporating yttrium film directly on a diamond anvil is expected to be a valuable asset for future synthesis of new superhydride superconductors.

机译：我们在体积和薄膜样品上呈现元素钇的电阻测量，并且在非常高的压力下表现出超导性。我们表明，超导转变温度高于100GPa的压力依赖性与Chen等人的预测的FDDD相位吻合良好。 [物理。 rev. lett。 109,157004（2012）]。这与来自Samudrala等人的123 GPA的X射线数据进行了RIETVELDETEMENT。 [J.物理。冷凝。物质24,362201（2012）]提供了强有力的证据表明，100GPa以上的钇的原子结构是正交的FDDD。此外，我们将直接蒸发在金刚石砧座上的钇薄膜的过程预计将成为未来新型超乙键超导体的有价值的资产。

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《Physical review.B.Condensed matter and materials physics》 |2020年第10期|104508.1-104508.5|共5页
作者
Jonathan Buhot; Owen Moulding; Takaki Muramatsu; Israel Osmond; Sven Friedemann;
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HH Wills Laboratory University of Bristol Bristol BS8 1TL United Kingdom;

HH Wills Laboratory University of Bristol Bristol BS8 1TL United Kingdom;

HH Wills Laboratory University of Bristol Bristol BS8 1TL United Kingdom;

HH Wills Laboratory University of Bristol Bristol BS8 1TL United Kingdom;

HH Wills Laboratory University of Bristol Bristol BS8 1TL United Kingdom;

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Experimental evidence for orthorhombic Fddd crystal structure in elemental yttrium above 100 GPa

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