Elastic electron scattering and localization in a chain with isotopic disorder

K. S. Denisov, E. Ya. Sherman
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Abstract

We study elastic electron scattering and localization by ubiquitous isotopic disorder in one-dimensional systems appearing due to interaction with phonon modes localized at isotope impurities. By using a tight-binding model with intersite hopping matrix element dependent on the interatomic distance, we find mass-dependent backscattering probability by single and pairs of isotopic impurities. For the pairs, in addition to the mass, the distance between the isotopes plays the critical role. Single impurities effectively attract electrons and can produce localized weakly bound electron states. In the presence of disorder, the electron free path at positive energies becomes finite and the corresponding Anderson localization at the spatial scale greatly exceeding the distance between the impurities becomes possible.
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同位素无序链中的弹性电子散射和定位
我们研究了一维系统中无处不在的同位素失序引起的弹性电子散射和局域化,这种散射和局域化是由于与同位素杂质处局域化的声子模式相互作用而产生的。通过使用与原子间距离有关的短距跳变矩阵元素的紧密结合模型,我们发现了单个和成对同位素杂质的反向散射概率与质量有关。对于成对的杂质,除了质量之外,同位素之间的距离也起着关键作用。单个杂质能有效地吸引电子,并产生局部的弱结合电子态。在存在无序的情况下,电子在正能量下的自由路径变得无限,相应的安德森定位在大大超过杂质间距离的空间尺度上成为可能。
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