Related papers: Dynamical complexity of non-Gaussian many-body systems with dissipation

Dynamical complexity of non-Gaussian many-body systems with dissipation

URL: http://arxiv.org/abs/2502.05658v1
Date: Sat, 08 Feb 2025 18:23:31 GMT
Title: Dynamical complexity of non-Gaussian many-body systems with dissipation
Authors: Guillermo González-García, Alexey V. Gorshkov, J. Ignacio Cirac, Rahul Trivedi,
Abstract summary: We characterize the state of bosonic and fermionic many-body models with inter-site Gaussian couplings, on-site non-Gaussian interactions, and local dissipation. For fermionic systems, if the dephasing noise is larger than the non-Gaussian interactions, the system state is a convex combination of Gaussian states at all times. Unlike bosonic systems, fermionic systems can generate entanglement even with noise rates much larger than the inter-site couplings.
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Abstract: We characterize the dynamical state of many-body bosonic and fermionic many-body models with inter-site Gaussian couplings, on-site non-Gaussian interactions and local dissipation comprising incoherent particle loss, particle gain, and dephasing. We first establish that, for fermionic systems, if the dephasing noise is larger than the non-Gaussian interactions, irrespective of the Gaussian coupling strength, the system state is a convex combination of Gaussian states at all times. Furthermore, for bosonic systems, we show that if the particle loss and particle gain rates are larger than the Gaussian inter-site couplings, the system remains in a separable state at all times. Building on this characterization, we establish that at noise rates above a threshold, there exists a classical algorithm that can efficiently sample from the system state of both the fermionic and bosonic models. Finally, we show that, unlike fermionic systems, bosonic systems can evolve into states that are not convex-Gaussian even when the dissipation is much higher than the on-site non-Gaussianity. Similarly, unlike bosonic systems, fermionic systems can generate entanglement even with noise rates much larger than the inter-site couplings.

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