Destructive Interference of the Superconducting Subband Condensates in the Quasi-1D Multigap Material Nanostructures

IF 1.9 Q3 PHYSICS, CONDENSED MATTER

Condensed Matter Pub Date : 2022-12-28 DOI:10.3390/condmat8010004

W. Pasek, M. H. Degani, M. Z. Maialle

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Abstract

This modelling work concerns the effects of the interference between two partial subband condensates in a quasi-one-dimensional superconducting superlattice. The iterative under-relaxation with phase control method is used to solve Bogoliubov–de Gennes equations in the envelope ansatz. This method—easily generalisable to a wide class of multiband superconducting systems—allows us to obtain both the constructive and the destructive interference solution. The discussion is centred on the latter case, with one of the condensates collapsing with increased inter-subband coupling strength, due to the other—the dominating one—imposing its symmetry on the overall order parameter. The in-depth qualitative analysis is made of underlying intra-subband and inter-subband dynamics, such as the possible factors determining the dominant subband condensate or the ones determining the region where the destructive solution coexists with the constructive one. A comprehensive discussion with the recent works concerning inter-band coupling effects follows, pointing that the destructive solution is nearly universally omitted.

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准一维多间隙材料纳米结构中超导子带凝聚的破坏性干涉

这项建模工作涉及准一维超导超晶格中两个部分子带凝聚体之间的干涉效应。采用迭代欠松弛相位控制方法求解包络变换中的Bogoliubov–de Gennes方程。这种方法很容易推广到广泛的一类多频带超导系统中，使我们能够获得相长和相消干涉解。讨论集中在后一种情况上，其中一个凝聚体随着子带间耦合强度的增加而坍缩，因为另一个——占主导地位的凝聚体——将其对称性强加于整个阶参数上。对潜在的子带内和子带间动态进行了深入的定性分析，例如确定主子带凝聚的可能因素，或者确定破坏性解与构造性解共存的区域的因素。下面对最近关于带间耦合效应的工作进行了全面的讨论，指出破坏性解几乎普遍被省略。

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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