镝在高压和低温下磁有序态的近零热膨胀

Kevin M. Hope, G. Samudrala, Y. Vohra
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引用次数: 3

摘要

摘要在金刚石砧室中,使用同步加速器源的角度色散X射线衍射,在高达35GPa的高压和200至7K的低温下测量了稀土金属镝(Dy)的原子体积。在我们的实验中,在高压和低温条件下,观察到六方紧密堆积(hcp)、α-Sm和双六方紧密填充(dhcp)相在Dy中是稳定的。已知Dy在低于176K的环境压力下经历磁有序,磁有序Néel温度(TN)随着压力的增加而迅速变化。我们的实验测量表明,对于所有三个已知的高压相(hcp、α-Sm和dhcp)到35GPa,Dy在磁有序状态下具有接近零的热膨胀,在顺磁状态下具有正常的热膨胀。在高达35GPa的所有压力下,在低于磁有序温度TN的情况下观察到Dy中的这种接近零的热膨胀行为。
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Near-zero thermal expansion in magnetically ordered state in dysprosium at high pressures and low temperatures
Abstract The atomic volume of rare earth metal dysprosium (Dy) has been measured up to high pressures of 35 GPa and low temperatures between 200 and 7 K in a diamond anvil cell using angle dispersive X-ray diffraction at a synchrotron source. The hexagonal close-packed (hcp), alpha-Samarium (α-Sm), and double hexagonal close-packed (dhcp) phases are observed to be stable in Dy under high-pressure and low-temperature conditions achieved in our experiments. Dy is known to undergo magnetic ordering below 176 K at ambient pressure with magnetic ordering Néel temperature (TN) that changes rapidly with increasing pressure. Our experimental measurement shows that Dy has near-zero thermal expansion in the magnetically ordered state and normal thermal expansion in the paramagnetic state for all the three known high pressure phases (hcp, α-Sm, and dhcp) to 35 GPa. This near-zero thermal expansion behavior in Dy is observed below the magnetic ordering temperature TN at all pressures up to 35 GPa.
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Cogent Physics
Cogent Physics PHYSICS, MULTIDISCIPLINARY-
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