Photoemission studies on metallic glasses using synchrotron radiation

D. Greig, B.L. Gallagher, M.A. Howson, D.S.-L. Law, D. Norman, F.M. Quinn
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引用次数: 14

Abstract

We report on the use of UV synchrotron radiation in the energy range 40–120 eV to probe the electron states of CuZr, FeZr, CoZr and CuHf amorphous alloys. The great advantage of tunable radiation over fixed frequency sources is that it allows identification of the electron states from a knowledge of the energy dependences of their scattering cross-sections. This variation is particularly pronounced in the case of the d states of zirconium which are essentially removed from the observed photoelectron spectra as the photon energy is increased from 40 eV to about 100 eV. The results confirm, for example, that for CuZr alloys it is the d states from zirconium that lie at the Fermi level.

By combining these results with those obtained from a technique involving constant initial states the scattering cross-sections for the Zr 4d and Cu 3d states were investigated. This will allow the experimental photoemission data to be corrected to give a more representative picture of the electronic band structure of these alloys, and has laid the foundation for extending the method to other newer alloy systems where the electron states have still not been identified.

用同步辐射研究金属玻璃的光发射
本文报道了利用40 ~ 120ev的紫外同步辐射探测CuZr、FeZr、CoZr和CuHf非晶合金的电子态。与固定频率源相比,可调谐辐射的巨大优势在于,它允许通过了解电子散射截面的能量依赖关系来识别电子状态。这种变化在锆的d态的情况下特别明显,当光子能量从40 eV增加到约100 eV时,d态基本上从观察到的光电子能谱中去除。例如,结果证实,对于CuZr合金来说,是锆的d态处于费米能级。将这些结果与恒定初始态技术所得结果相结合,研究了zr4d和Cu 3d态的散射截面。这将允许对实验光发射数据进行校正,以给出这些合金的电子能带结构的更具代表性的图像,并为将该方法扩展到其他尚未确定电子态的新合金系统奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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