V. V. Milenin, I. Ermolovich, R. Konakova, A. Belyaev, D.I. Voitsikhovsky, V. N. Ivanov, I. Hotovy
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引用次数: 1
摘要
金属半导体结构在极端条件下(高温、强电磁场、辐射等)的运行过程中,其退化受到传质过程和形成接触的层对之间固相相互作用的本质的关键影响。在外界因素的影响下,界面边界的结构和相组成发生了变化,同样也改变了半导体亚表面区域的局部不均匀程度、杂质和缺陷组成,最终导致接触的电学和物理性质的变化(退化)。目前,寻找具有稳定和抗外部影响的金属- a /sup 3/B/sup 5/接触结构的研究倾向于研究这类能显著削弱金属-半导体层相互扩散的金属合金和化合物。其中,特别令人感兴趣的是硼化钛和氮化钛。本文对TiB/ sub2 /(TiN)-GaAs结构进行了比较研究。
The influence of physical and chemical factors upon thermal and radiation stability of TiN-GaAs and TiB/sub 2/-GaAs contacts
It has been well established that degradation of metal-semiconductor structures in the course of their operation under extreme conditions (high temperatures, strong electromagnetic field, radiation, etc.) is crucially affected by the mass transfer processes and by the nature of solid-phase interactions between the pairs of layers forming the contact. Under the influence of external factors, the structural and phase composition of the interface boundary change, and similarly changes the degree of local non-uniformity, impurity and defect composition of the subsurface region of the semiconductors, which results, eventually, into variations (degrading) of the electric and physical properties of the contacts. Nowadays, the search for structures with contacts metal-A/sup 3/B/sup 5/ which are stable and resistant against external effects tends to examine such metallic alloys and compounds which could markedly weaken the interdiffusion of metal-semiconductor layers. Among them, of particular interest are titanium borides and nitrides. The paper present a comparative study of TiB/sub 2/(TiN)-GaAs structures.
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