单极子与球谐超导体:拓扑排斥、共存与稳定性

E. Muñoz, R. Soto-Garrido, V. Juričić
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引用次数: 1

摘要

在掺杂的Weyl半金属中,单极子谐波超导体(SC)作为包围Weyl点的费米表面之间的配对,是相当不寻常的,因为它具有从母金属相继承的单极子电荷。然而,这种状态可以与更传统的球面谐波配对竞争,例如$s$ -波。在弱耦合平均场BCS理论的框架下,我们证明了单极子和常规球谐子是相当普遍地共存的,而当单极子电荷的绝对值与球谐子的角动量量子数相匹配时,排斥力就会发生。正如我们所展示的,这个特征是单极子SC的拓扑性质的直接结果,我们称之为\emph{拓扑排斥}。我们用与单极子SC $Y_{-1,1,0}(\theta,\phi)$竞争的传统$s-$和$(p_x\pm ip_y)-$波对的例子来说明上述原理,它们分别在参数空间的有限区域内共存,并相互排斥。此外,当节点上的化学势不相等以及存在点状带电杂质时,s波配对更稳定。由于相变是不连续的,接近相边界,我们预测在具有单极子和平凡相(如$s-$波)的畴之间的界面上的Majorana表面模式将是单极子SC的实验特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Monopole versus spherical harmonic superconductors: Topological repulsion, coexistence, and stability
The monopole harmonic superconductor (SC), proposed in doped Weyl semimetals as a pairing between the Fermi surfaces enclosing the Weyl points, is rather unusual, as it features the monopole charge inherited from the parent metallic phase. However, this state can compete with more conventional spherical harmonic pairings, such as an $s$-wave. We here demonstrate, within the framework of the weak coupling mean-field BCS theory, that the monopole and a conventional spherical harmonic SC quite generically coexist, while the repulsion can take place when the absolute value of the monopole charge matches the angular momentum quantum number of the spherical harmonic. As we show, this feature is a direct consequence of the topological nature of the monopole SC, and we dub it \emph{topological repulsion}. We illustrate the above principle with the example of the conventional $s-$ and $(p_x\pm ip_y)-$wave pairings competing with the monopole SC $Y_{-1,1,0}(\theta,\phi)$, which coexist in a finite region of the parameter space, and repel, respectively. Furthermore, the s-wave pairing is more stable both when the chemical potentials at the nodes are unequal, and in the presence of point-like charged impurities. Since the phase transition is discontinuous, close to the phase boundary, we predict that the Majorana surface modes at the interfaces between domains featuring the monopole and the trivial phases, such as an $s-$wave, will be the experimental signature of the monopole SC.
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