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Simulation of higher-order topological phases and related topological phase transitions in a superconducting qubit

Jingjing Niu, Tongxing Yan, Yuxuan Zhou, Ziyu Tao, Xiaole Li, Weiyang Liu, Libo Zhang, Hao Jia, Song Liu, Zhongbo Yan, Yuanzhen Chen, Dapeng Yu

2021Science Bulletin41 citationsDOIOpen Access PDF

Abstract

Higher-order topological phases give rise to new bulk and boundary physics, as well as new classes of topological phase transitions. While the realization of higher-order topological phases has been confirmed in many platforms by detecting the existence of gapless boundary modes, a direct determination of the higher-order topology and related topological phase transitions through the bulk in experiments has still been lacking. To bridge the gap, in this work we carry out the simulation of a two-dimensional second-order topological phase in a superconducting qubit. Owing to the great flexibility and controllability of the quantum simulator, we observe the realization of higher-order topology directly through the measurement of the pseudo-spin texture in momentum space of the bulk for the first time, in sharp contrast to previous experiments based on the detection of gapless boundary modes in real space. Also through the measurement of the evolution of pseudo-spin texture with parameters, we further observe novel topological phase transitions from the second-order topological phase to the trivial phase, as well as to the first-order topological phase with nonzero Chern number. Our work sheds new light on the study of higher-order topological phases and topological phase transitions.

Topics & Concepts

Topology (electrical circuits)Realization (probability)PhysicsTopological orderTopological entropy in physicsBoundary (topology)Gapless playbackPhase (matter)Position and momentum spaceSymmetry protected topological orderTopological degeneracyTopological quantum numberTopological skeletonTopological insulatorZero-dimensional spacePhase transitionTopological defectQuantum phasesQuantum phase transitionTexture (cosmology)QuantumSuperfluid filmTopological manifoldTopological Materials and PhenomenaQuantum many-body systemsChemical and Physical Properties of Materials
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