Topological and Nontopological Edge States Induced by Qubit-Assisted Coupling Potentials |
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Authors: | Lu Qi Yan Xing Guo-Li Wang Shutian Liu Shou Zhang Hong-Fu Wang |
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Affiliation: | 1. School of Physics, Harbin Institute of Technology, Harbin, Heilongjiang, 150001 China;2. Department of Physics, College of Science, Yanbian University, Yanji, Jilin, 133002 China |
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Abstract: | In the usual Su–Schrieffer–Heeger (SSH) chain, the topology of the energy spectrum is divided into two categories in different parameter regions. Here, the topological and nontopological edge states induced by qubit-assisted coupling potentials in circuit quantum electrodynamics (QED) lattice modeled as a SSH chain are studied. It is found that, when the coupling potential added on only one end of the system raises to a certain extent, the strong coupling potential will induce a new topologically nontrivial phase accompanied by the appearance of a nontopological edge state, and the novel phase transition leads to the inversion of odd–even effect directly. Furthermore, the topological phase transitions when two unbalanced coupling potentials are injected into both ends of the circuit QED lattice are studied, and it is found that the system exhibits three distinguishing phases with multiple flips of energy bands. These phases are significantly different from the previous phase induced via unilateral coupling potential due to the existence of a pair of nontopological edge states. The scheme provides a feasible and visible method to induce different topological and nontopological edge states through controlling the qubit-assisted coupling potentials in circuit QED lattice both in experiment and theory. |
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Keywords: | circuit QEDs nontopological edge states SSH models topological phase |
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