Effect of buffer coatings on the structural state and magnetic properties of (Cr-Mn)/Fe films

None Vas’kovskiy V. O., None Feshchenko A. A., None Moskalev M. E., None Lepalovskij V. N., None Kravtsov E. A., None Gorkovenko A. N.
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Abstract

The article presents the results of a systematic study of the crystalline structure, microstructure, and hysteresis properties of (Cr 80 Mn 20 )/Fe bilayers, deposited on buffer coatings of various metals (Cr, Fe, W, Ta). It has been established that depending on the composition of the buffer coating and the thickness of the Cr-Mn layer, the latter develops body-centered cubic structure with either the (110) or (200) texture, or none. It is shown that the Cr-Mn layer is a source of increased coercivity in the adjacent Fe layer and when is in a certain structural state and has a relatively large thickness (100 nm) induces exchange bias in the Fe layer. The regularities obtained are interpreted in terms of the antiferromagnetic ordering of Cr-Mn and its relatively weak magnetic anisotropy Keywords: antiferromagnetics, ferromagnetic, bilayers, thickness, composition, temperature, texture, coercivity, exchange bias.
缓冲涂层对(Cr-Mn)/Fe薄膜结构状态和磁性能的影响
本文介绍了在不同金属(Cr, Fe, W, Ta)缓冲涂层上沉积的(Cr 80mn 20)/Fe双层膜的晶体结构、微观结构和迟滞特性的系统研究结果。根据缓冲层的组成和Cr-Mn层的厚度,Cr-Mn层形成体心立方结构,具有(110)或(200)织构,或者没有织构。结果表明,Cr-Mn层是相邻Fe层矫顽力增加的来源,当Cr-Mn层处于一定结构状态且厚度较大(100 nm)时,会引起Fe层的交换偏置。关键词:反铁磁性,铁磁性,双层结构,厚度,成分,温度,织构,矫顽力,交换偏置。
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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