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Autori principali: Luo, Da-Wei, Yu, Edward, Yu, Ting
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.00323
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author Luo, Da-Wei
Yu, Edward
Yu, Ting
author_facet Luo, Da-Wei
Yu, Edward
Yu, Ting
contents We considered the transfer of continuous-variable entangled states in coupled oscillator chains embedded in a generic environment. We demonstrate high-fidelity transfer via optimal control in two configurations - a linear chain and an X-shaped chain. More specifically, we use the Krotov optimization algorithm to design control fields that achieve the desired state transfer. Under the environmental memory effects, the Krotov algorithm needs to be modified, since the dissipative terms in non-Markovian dynamics are generally governed by the time-dependent system Hamiltonian. Remarkably, we can achieve high-fidelity transfer by simply tuning the frequencies of the oscillators while keeping the coupling strength constant, even in the presence of open-system effects. For the system under consideration, we find that quantum memory effects can aid in the transfer of entanglement and show improvement over the memoryless case. In addition, it is possible to target a range of entangled states, making it unnecessary to know the parameters of the initial state beforehand.
format Preprint
id arxiv_https___arxiv_org_abs_2511_00323
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optimal transfer of entanglement in oscillator chains in non-Markovian open systems
Luo, Da-Wei
Yu, Edward
Yu, Ting
Quantum Physics
We considered the transfer of continuous-variable entangled states in coupled oscillator chains embedded in a generic environment. We demonstrate high-fidelity transfer via optimal control in two configurations - a linear chain and an X-shaped chain. More specifically, we use the Krotov optimization algorithm to design control fields that achieve the desired state transfer. Under the environmental memory effects, the Krotov algorithm needs to be modified, since the dissipative terms in non-Markovian dynamics are generally governed by the time-dependent system Hamiltonian. Remarkably, we can achieve high-fidelity transfer by simply tuning the frequencies of the oscillators while keeping the coupling strength constant, even in the presence of open-system effects. For the system under consideration, we find that quantum memory effects can aid in the transfer of entanglement and show improvement over the memoryless case. In addition, it is possible to target a range of entangled states, making it unnecessary to know the parameters of the initial state beforehand.
title Optimal transfer of entanglement in oscillator chains in non-Markovian open systems
topic Quantum Physics
url https://arxiv.org/abs/2511.00323