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Second Chern Number and Non-Abelian Berry Phase in Topological Superconducting Systems

Hannes Weisbrich, Raffael L. Klees, Gianluca Rastelli, Wolfgang Belzig

2021PRX Quantum55 citationsDOIOpen Access PDF

Abstract

Topology ultimately unveils the roots of the perfect quantization observed in complex systems. The two-dimensional quantum Hall effect is the celebrated archetype. Remarkably, topology can manifest itself even in higher-dimensional spaces in which control parameters play the role of extra, synthetic dimensions. However, so far, a very limited number of implementations of higher-dimensional topological systems have been proposed, a notable example being the so-called four-dimensional quantum Hall effect. Here we show that mesoscopic superconducting systems can implement higher-dimensional topology and represent a formidable platform to study a quantum system with a purely nontrivial second Chern number. We demonstrate that the integrated absorption intensity in designed microwave spectroscopy is quantized and the integer is directly related to the second Chern number. Finally, we show that these systems also admit a non-Abelian Berry phase. Hence, they also realize an enlightening paradigm of topological non-Abelian systems in higher dimensions.

Topics & Concepts

Topology (electrical circuits)Quantum Hall effectAbelian groupGeometric phaseTheoretical physicsPhysicsMathematicsQuantum mechanicsPure mathematicsElectronCombinatoricsTopological Materials and PhenomenaQuantum and electron transport phenomenaGraphene research and applications
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