Boundary topological superconductors

Bo Li, Zhongbo Yan
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引用次数: 6

Abstract

For strongly anisotropic time-reversal invariant (TRI) insulators in two and three dimensions, the band inversion can occur respectively at all TRI momenta of a high symmetry axis and plane. Although these classes of materials are topologically trivial as the strong and weak $Z_{2}$ indices are all trivial, they can host an even number of unprotected helical gapless edge states or surface Dirac cones on some boundaries. We show in this work that when the gapless boundary states are gapped by $s_{\pm}$-wave superconductivity, a boundary time-reversal invariant topological superconductor (BTRITSC) characterized by a $Z_{2}$ invariant can be realized on the corresponding boundary. Since the dimension of the BTRITSC is lower than the bulk by one, the whole system is a second-order TRI topological superconductor. When the boundary of the BTRITSC is further cut open, Majorana Kramers pairs and helical gapless Majorana modes will respectively appear at the corners and hinges of the considered sample in two and three dimensions. Furthermore, a magnetic field can gap the helical Majorana hinge modes of the three-dimensional second-order TRI topological superconductor and lead to the realization of a third-order topological superconductor with Majorana corner modes. Our proposal can potentially be realized in insulator-superconductor heterostructures and iron-based superconductors whose normal states take the desired inverted band structures.
边界拓扑超导体
对于二维和三维强各向异性时反转不变(TRI)绝缘子,在高对称轴和面的所有TRI动量处都可以分别发生能带反转。虽然这类材料在拓扑上是平凡的,因为强Z_{2}$指标和弱Z_{2}$指标都是平凡的,但它们可以在某些边界上拥有偶数个无保护的螺旋无间隙边缘状态或表面狄拉克锥。我们在这项工作中表明,当无间隙边界态被$s_{\pm}$-波超导性所间隙时,可以在相应的边界上实现具有$Z_{2}$不变量的边界时间反转不变拓扑超导体(BTRITSC)。由于BTRITSC的尺寸比本体小1,因此整个系统是二阶TRI拓扑超导体。当进一步切开BTRITSC的边界时,所考虑的样品的转角和铰链处分别会出现二维和三维的Majorana Kramers对和螺旋无间隙Majorana模态。此外,磁场可以使三维二阶TRI拓扑超导体的螺旋马约拉纳铰链模式发生间隙,从而实现具有马约拉纳角模式的三阶拓扑超导体。我们的建议有可能在绝缘体超导体异质结构和铁基超导体中实现,其正常状态采取所需的倒带结构。
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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