Non-Hermitian (NH) systems with aperiodic order display phase transitions that are beyond the paradigm of Hermitian physics. This motivates the search for exactly solvable models, where localization-delocalization phase transitions, mobility edges in complex plane, and their topological nature can be unraveled. Here, we present an exactly solvable model of quasicrystal, which is a nonpertrurbative NH extension of a famous integrable model of quantum chaos proposed by Grempel et al. [Phys. Rev. Lett. 49, 833 (1982)PRBMDO1098-012110.1103/PhysRevLett.49.833] and dubbed the Maryland model. Contrary to the Hermitian Maryland model, its NH extension shows a richer scenario, with a localization-delocalization phase transition via topological mobility edges in complex energy plane.
Non-Hermitian Maryland model
Longhi S.
2021-01-01
Abstract
Non-Hermitian (NH) systems with aperiodic order display phase transitions that are beyond the paradigm of Hermitian physics. This motivates the search for exactly solvable models, where localization-delocalization phase transitions, mobility edges in complex plane, and their topological nature can be unraveled. Here, we present an exactly solvable model of quasicrystal, which is a nonpertrurbative NH extension of a famous integrable model of quantum chaos proposed by Grempel et al. [Phys. Rev. Lett. 49, 833 (1982)PRBMDO1098-012110.1103/PhysRevLett.49.833] and dubbed the Maryland model. Contrary to the Hermitian Maryland model, its NH extension shows a richer scenario, with a localization-delocalization phase transition via topological mobility edges in complex energy plane.File | Dimensione | Formato | |
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