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Miscibility gap and phonon thermodynamics of Fe-Au alloys studied by inelastic neutron scattering and nuclear-resonant inelastic x-ray scattering

机译：非弹性中子散射和核共振非弹性X射线散射研究Fe-Au合金的混溶间隙和声子热力学

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Recent measurements of the phonon spectra of several Au-rich alloys of face-centered-cubic Fe-Au using inelastic neutron scattering and nuclear-resonant inelastic x-ray scattering are summarized. The Wills-Harrison model, accounting for charge transfer upon alloying, is used to explain the observed negative excess vibrational entropy of mixing, which increases the miscibility gap temperature in the system by an estimated maximum of 550 K and we adjudicate to a charge transfer from the Fe to the Au atoms that results in an increase in the electron density in the free-electron-like states and in stronger sd-hybridization. When Au is the solvent, this softens the Fe–Fe bonds but stiffens the Au–Au and Au–Fe bonds which results in a net stiffening relative to the elemental components.

机译：总结了使用非弹性中子散射和核共振非弹性x射线散射对面心立方Fe-Au的几种富金合金的声子光谱的最新测量结果。 Wills-Harrison模型（考虑合金化时的电荷转移）用于解释所观察到的混合过程的负过量振动熵，这会增加系统中的可混溶性间隙温度，估计最大值为550 K，我们将其推定为Fe到Au原子，导致在类似自由电子状态的电子密度增加，并导致更强的sd杂化。当Au是溶剂时，这会软化Fe-Fe键，但会增强Au-Au和Au-Fe键，从而导致相对于元素组分的净硬化。

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Muñoz Jorge A.; Fultz Brent;
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Miscibility gap and phonon thermodynamics of Fe-Au alloys studied by inelastic neutron scattering and nuclear-resonant inelastic x-ray scattering

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