Related papers: Delocalization of skin steady states

Delocalization of skin steady states

URL: http://arxiv.org/abs/2407.08398v1
Date: Thu, 11 Jul 2024 11:03:54 GMT
Title: Delocalization of skin steady states
Authors: Xu Feng, Shu Chen,
Abstract summary: We propose an intuitive Lindbladian composed of two chains with reversed skin localization. In the single-body scenario, it corresponds to a shift in the scaling of the Liouvillian gap. In the many-body scenario, it is revealed that the scaling behavior of steady-state entanglement changes from the area law to the logarithmic law.
Score: 5.718282166156735
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The skin effect, characterized by the tendency of particles to accumulate at the boundaries, has been extensively studied in non-Hermitian systems. In this work, we propose an intuitive Lindbladian composed of two chains with reversed skin localization. The skin steady state is gradually delocalized as the interchain coupling increases. In the single-body scenario, it corresponds to a shift in the scaling of the Liouvillian gap $\Delta$ from $\Delta \propto N^0$ to $\Delta \propto N^{-2}$. Notably, exact diagonalization results reveal a system-size sensitivity of the single-particle Liouvillian spectrum, inherited from the non-Hermitian effective Hamiltonian's system-size sensitivity. We predict that even an arbitrarily small coupling will induce dramatic changes in the Liouvillian spectrum and steady state in the thermodynamic limit, a phenomenon we term the critical Liouvillian skin effect. Additionally, in the many-body scenario, by employing the stochastic Schr\"odinger equation to unravel the Lindblad master equation, it is revealed that the scaling behavior of steady-state entanglement changes from the area law to the logarithmic law. This work demonstrates the delocalization of both single-body and many-body skin steady states, introducing a novel mechanism for inducing entanglement transitions beyond the quantum Zeno effect.

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