Boundary-Obstructed Topological High-Tc Superconductivity in Iron Pnictides

Boundary-Obstructed Topological High-Tc Superconductivity in Iron Pnictides

Nontrivial topology and unconventional pairing are two central guiding principles in the contemporary search for and analysis of superconducting materials and heterostructure compounds. Previously, a topological superconductor has been predominantly conceived to result from a topologically nontrivia...

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Bibliographic Details
Published in:Physical review. X Vol. 10; no. 4
Main Authors: Wu, Xianxin, Benalcazar, Wladimir A, Li, Yinxiang, Thomale, Ronny, Chao-Xing, Liu, Hu, Jiangping
Format: Journal Article
Language:English
Published: College Park American Physical Society 20-10-2020
Subjects:
Boundaries
Group 5A compounds
Heterostructures
High temperature superconductors
Holes (electron deficiencies)
Iron
Proximity effect (electricity)
Quantum computing
Superconductivity
Topological insulators
Topological superconductors
Topology
Toruses
Unconventional superconductivity
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Summary:Nontrivial topology and unconventional pairing are two central guiding principles in the contemporary search for and analysis of superconducting materials and heterostructure compounds. Previously, a topological superconductor has been predominantly conceived to result from a topologically nontrivial band subject to an intrinsic or external superconducting proximity effect. Here, we propose a new class of topological superconductors that are uniquely induced by unconventional pairing. They exhibit a boundary-obstructed higher-order topological character and, depending on their dimensionality, feature unprecedently robust Majorana bound states or hinge modes protected by chiral symmetry. We predict the 112 family of iron pnictides, such asCa1−xLaxFeAs2, to be highly suited material candidates for our proposal, which can be tested by edge spectroscopy. Because of the boundary obstruction, the topologically nontrivial feature of the 112 pnictides does not reveal itself for a bulk-only torus band analysis without boundaries, and as such, it had evaded previous investigations. Our proposal not only opens a new arena for highly stable Majorana modes in high-temperature superconductors but also provides the smoking gun for extendeds-wave order in the iron pnictides.
ISSN:2160-3308
DOI:10.1103/PhysRevX.10.041014