We analytically express the loss of entanglement between the components of a quantum device due to the generation of quantum correlations with its environment, and show that such loss diminishes when the latter is macroscopic and displays a semi-classical behaviour. We model the problem as a device made of a couple of qubits with a magnetic environment: this choice allows us to implement the above condition of semi-classical macroscopicity in terms of a large-S condition, according to the well known equivalence between classical and S → ∞ limit. A possible strategy for protecting internal entanglement exploiting the mechanism of domain-formation typical of critical dynamics is also suggested.
Two-Qubits in a Large-S Environment / Fiorelli Eliana, Cuccoli Alessandro, Verrucchi Paola. - In: PROCEEDINGS. - ISSN 2504-3900. - ELETTRONICO. - 12:(2019), pp. 10-10. [10.3390/proceedings2019012010]
Two-Qubits in a Large-S Environment
Cuccoli Alessandro;Verrucchi Paola
2019
Abstract
We analytically express the loss of entanglement between the components of a quantum device due to the generation of quantum correlations with its environment, and show that such loss diminishes when the latter is macroscopic and displays a semi-classical behaviour. We model the problem as a device made of a couple of qubits with a magnetic environment: this choice allows us to implement the above condition of semi-classical macroscopicity in terms of a large-S condition, according to the well known equivalence between classical and S → ∞ limit. A possible strategy for protecting internal entanglement exploiting the mechanism of domain-formation typical of critical dynamics is also suggested.
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