4.7 Article

Effective impurity behavior emergent from non-Hermitian proximity effect

Journal

COMMUNICATIONS PHYSICS
Volume 6, Issue 1, Pages -

Publisher

NATURE PORTFOLIO
DOI: 10.1038/s42005-023-01282-1

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The authors study the non-Hermitian proximity effect in quantum systems with boundaries coupled to external environments, which leads to the emergence of imaginary in-gap states penetrating the bulk. This phenomenon reveals similarities between non-Hermitian and impurity physics, with implications for open quantum systems. Non-Hermitian boundaries commonly occur in open quantum systems, and the non-Hermitian proximity effect (NHPE) describes the penetration of non-Hermiticity from the boundary into the bulk. The NHPE generates in-gap states with imaginary eigenenergies, localized at the system boundary and decaying into the bulk similar to conventional impurity states.
The authors reveal a non-Hermitian proximity effect that occurs when the boundary of a system is coupled to an external environment, leading to the emergence of imaginary in-gap states penetrating the bulk similarly to conventional impurity states. This phenomenon uncovers similarities between non-Hermitian and impurity physics, with relevant implications for open quantum systems. Non-Hermitian boundaries commonly take place in many open quantum systems locally coupled to a surrounding environment. Here, we reveal a type of non-Hermitian effect induced by non-Hermitian boundaries, the non-Hermitian proximity effect (NHPE), which describes the penetration of non-Hermiticity from the boundary into the bulk. For gapped quantum systems, the NHPE generates in-gap states with imaginary eigenenergies, termed imaginary in-gap states. The imaginary in-gap states are localized at the system boundary and decay into the bulk, analogous to the behaviors of the conventional impurity states. However, in contrast to impurity states, the imaginary in-gap states exhibit distinct dynamical behaviors under time-evolution. Moreover, they are physically manifested as corner modes under open boundaries, as a combined result of the non-Hermitian skin effect (NHSE) and NHPE. These results not only uncover implicit similarities between quantum systems with non-Hermitian boundaries and impurity physics, but also point to intriguing non-Hermitian phenomena broadly relevant to open quantum systems.

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