Effect of Chemical Disorder on the Electronic Stopping of Solid Solution Alloys

Other Topics Engineering Research eJournal Pub Date : 2019-12-07 DOI:10.2139/ssrn.3525138

E. Quashie, R. Ullah, X. Andrade, A. Correa

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引用次数: 9

Abstract

Abstract The electronic stopping power of nickel-based equiatomic solid solutions alloys NiCr, NiFe and NiCo for protons and alpha projectiles is investigated in detail using real-time time-dependent density functional theory over a wide range of velocities. Recently developed numerical electronic structure methods are used to probe fundamental aspects of electron-ion coupling non-perturbatively and in a fully atomistic context, capturing the effect of the atomic scale disorder. The effects of particular electronic band structures and density of states reflect in the low velocity limit behavior. We compare our results for the alloys with those of a pure nickel target to understand how alloying affects the electronic stopping. We discover that NiCo and NiFe have similar stopping behavior as Ni while NiCr has an asymptotic stopping power that is more than a factor of two larger than its counterparts for velocities below 0.1 a.u.. We show that the low-velocity limit of electronic stopping power can be manipulated by controlling the broadening of the d-band through the chemical disorder. In this regime, the Bragg’s additive rule for the stopping of composite materials also fails for NiCr.

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化学紊乱对固溶体合金电子停滞的影响

摘要利用实时随时间密度泛函理论，研究了镍基等原子固溶体合金NiCr、NiFe和NiCo在大速度范围内对质子和α射弹的电子阻挡能力。最近发展的数值电子结构方法被用来探测电子-离子耦合的基本方面，在非摄动和完全原子的背景下，捕捉原子尺度紊乱的影响。特殊的能带结构和态密度的影响反映在低速极限行为上。我们将合金的结果与纯镍靶的结果进行比较，以了解合金如何影响电子停止。我们发现NiCo和NiFe具有与Ni相似的停止行为，而NiCr的渐近停止能力在低于0.1 a.u的速度下比其对应物大两倍以上。我们证明了电子停止功率的低速极限可以通过化学无序控制d波段的展宽来控制。在这种情况下，用于停止复合材料的布拉格加性规则对于NiCr也失效。

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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Other Topics Engineering Research eJournal

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