Ultrathin Fe Films Sandwiched Between Au Layers: CEMS- study

Mohamed Mohsen, Moftah Hussain, Khalid Mustafa, Mohammed Mostafa
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Abstract

The STM studies of Fe films with thickness above 0.6 ML do not contribute significantly to the solution of the structural problems, because of the Au surface layer, which hinders details of the Fe sub-surface layers. The Mossbauer spectroscopy appears in this case as an exceptional method, which has the ability to solve structural and magnetic problems. Our discussion is based on a simplified spectrum analysis, assuming a discrete character of the spectral components. In reality, a distribution of the hyperfine magnetic field, as well as isomer shift and the quadrupole splitting is an obvious and natural consequence of the finite size system 'presented by the monolayer film. The exact fitting of all hyperfine parameters distribution is too difficult. Most of the fitting procedures treat the distributions of IS vs. Bhf and QS vs. Bhf as linearly dependent as described using the well-known Voigt-based method.
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夹在金层之间的超薄铁膜:CEMS-研究
厚度大于0.6 ML的Fe薄膜的STM研究对结构问题的解决没有显著贡献,因为Au表面层阻碍了Fe亚表面层的细节。在这种情况下,穆斯堡尔光谱学作为一种特殊的方法出现,它具有解决结构和磁性问题的能力。我们的讨论是基于一个简化的频谱分析,假设频谱成分是离散的。在现实中,超细磁场的分布、同分异构体的位移和四极分裂是单层薄膜所呈现的有限尺寸系统的一个明显而自然的结果。所有超精细参数分布的精确拟合过于困难。大多数拟合程序将IS与Bhf和QS与Bhf的分布视为线性相关,如使用众所周知的基于voigt的方法所描述的那样。
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