双通道法诺-安德森结构中的连续体无马约拉纳束缚态

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Tong Gong, Yu-Lian Zhu, Wei-Jiang Gong
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引用次数: 0

摘要

通过考虑马约拉纳束缚态(MBS)的侧耦合,我们研究了电子在双通道法诺-安德森结构中的传输。研究发现,当通道间的点-引线耦合与通道内的点-引线耦合相同时,会诱发连续体中的束缚态(BIC)现象,其特征表现为量子传输能力减半。如果点-引线耦合之间的平衡被打破,BIC 现象也将被破坏,从而导致传输能力进一步减弱。接下来,当在该系统中引入 MBS 时,BIC 现象就能得到有效改变。在两个 MBS 以对称方式侧耦合到量子点的情况下,电平退化会导致新的 BIC 现象。由于只加入了一个 MBS,它通过诱导新的传输骤降来抑制电子传输。当考虑到点间库仑相互作用时,尽管透射能力光谱发生了复杂的变化,但 BIC 现象仍然保持稳定。因此,我们可以理解耦合量子点中 BIC 的实现及其因侧耦合 MBS 的存在而产生的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Majorana-free bound state in continuum in the double-channel Fano-Anderson structure
We investigate the electron transport through a double-channel Fano-Anderson structure, by considering the side-coupling of Majorana bound states (MBSs). It is found that the bound state in continuum (BIC) phenomenon can be induced when inter-channel dot-lead couplings are identical to the intra-channel dot-lead couplings, whose signature is manifested as the halved quantum transmission ability. If the balance between the dot-lead couplings is broken, the BIC phenomenon will also be destroyed, leading to further suppression of the transmission ability. Next, when MBSs are introduced to this system, the BIC phenomenon can be modified efficiently. For the case of two MBSs side-coupled to the quantum dots in a symmetric way, level degeneracy causes new a BIC phenomenon. As only one MBS is incorporated, it suppresses the electron transmission by inducing new transmission dips. When the interdot Coulomb interaction is considered, the BIC phenomena are still robust despite the complicate changes of the transmission ability spectra. One can then understand the realization of BIC in coupled quantum dots and their variation due to the presence of side-coupled MBSs.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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