Publikation: Multiterminal Josephson junctions with tunable topological properties
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Since the discovery of the Andreev reflection process at normal-metal/superconductor junctions and the corresponding Andreev bound states in superconductor/normal-metal/superconductor junctions, various multiterminal Josephson junctions have been studied to explore many exotic phases of quantum matter, where the formation of Andreev bound states in the normal region account for dissipationless supercurrent and play a central role in determining exotic properties. Recently, an intriguing aspect of the multiterminal Josephson junctions has been proposed to study the topological properties, wherein the Andreev bound states acquire topological characteristics upon tuning the phase differences of superconducting terminals. In this work, we investigate topologically non-trivial phases in four-terminal Josephson junctions based on square and graphene lattices. Additionally, we apply a gating potential that smoothly drives the Andreev bound states from a topologically non-trivial state to a trivial state. Furthermore, we observe that the gating potential in our setup produces the similar physics of the topological Andreev bound states of the double (single) quantumdot multiterminal Josephson junctions when the gating potential is small (large) compared to the superconducting gap.
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RAM, Panch, Detlef BECKMANN, Romain DANNEAU, Wolfgang BELZIG, 2025. Multiterminal Josephson junctions with tunable topological propertiesBibTex
@unpublished{Ram2025Multi-72091, title={Multiterminal Josephson junctions with tunable topological properties}, year={2025}, doi={10.48550/arXiv.2501.12024}, author={Ram, Panch and Beckmann, Detlef and Danneau, Romain and Belzig, Wolfgang} }
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