L. G. E. Arruda scite author profile

We evaluate the quantum discord dynamics of two qubits in independent and common non-Markovian environments. We compare the dynamics of entanglement with that of quantum discord. For independent reservoirs the quantum discord vanishes only at discrete instants whereas the entanglement can disappear during a finite time interval. For a common reservoir quantum discord and entanglement can behave very differently with sudden birth of the former but not of the latter. Furthermore, in this case the quantum discord dynamics presents sudden changes in the derivative of its time evolution which is evidenced by the presence of kinks in its behavior at discrete instants of time.

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Exact dynamics of single-qubit-gate fidelities under the measurement-based quantum computation scheme

Arruda

Fanchini

Napolitano

et al. 2012

Phys. Rev. A

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Measurement-based quantum computation is an efficient model to perform universal computation. Nevertheless, theoretical questions have been raised, mainly with respect to realistic noise conditions. In order to shed some light on this issue, we evaluate the exact dynamics of some single-qubit-gate fidelities using the measurement-based quantum computation scheme when the qubits which are used as a resource interact with a common dephasing environment. We report a necessary condition for the fidelity dynamics of a general pure N -qubit state, interacting with this type of error channel, to present an oscillatory behavior, and we show that for the initial canonical cluster state, the fidelity oscillates as a function of time. This state fidelity oscillatory behavior brings significant variations to the values of the computational results of a generic gate acting on that state depending on the instants we choose to apply our set of projective measurements. As we shall see, considering some specific gates that are frequently found in the literature, the fast application of the set of projective measurements does not necessarily imply high gate fidelity, and likewise the slow application thereof does not necessarily imply low gate fidelity. Our condition for the occurrence of the fidelity oscillatory behavior shows that the oscillation presented by the cluster state is due exclusively to its initial geometry. Other states that can be used as resources for measurement-based quantum computation can present the same initial geometrical condition. Therefore, it is very important for the present scheme to know when the fidelity of a particular resource state will oscillate in time and, if this is the case, what are the best times to perform the measurements.

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Tripartite State Characterization via Activated Bipartite Entanglement

Arruda¹,

Balthazar²,

Moreira³

et al. 2021

Preprint

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We propose a way to identify and classify genuine tripartite entanglement in pure states of three-qubit systems via the Activated Bipartite Entanglement (ABE). We show that for pure states pertaining to one of the two inequivalent classes of genuine tripatite entanglement, for which the GHZ and the W states are the notorious representatives, the ABE is always greater than zero, while for separable tripartite pure states or bipartite entanglement between two parts of three-qubit pure states it is always null. In addition we present a experimental proposal by using liner optical circuits and degrees of freedom of a single photon to verify the characterization via distributed entanglement. The circuit simulation showed an excellent accordance with theoretical prediction for a wide classes of GHZ states.

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Computação quântica baseada em medidas projetivas em sistemas quânticos abertos

Arruda¹

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Usamos um modelo exatamente solúvel para calcular a dinâmica da fidelidade de uma computação baseada em medidas projetivas cujo sistema interage com um meio ambiente comum que insere erros de fase. Mostramos que a fidelidade do estado de Cluster canônico oscila como função do tempo e, como consequência, a computação quântica baseada em medidas projetivas pode apresentar melhores resultados computacionais mesmo para um conjunto sequencial de medidas lentas. Além disso, apresentamos uma condição necessária para que a dinâmica da fidelidade de um estado quântico geral apresente um comportamento não-monotônico. Palavras-chave: Sistemas quânticos abertos. Descoêrencia. Computação quântica. Estados de Cluster. Discórdia quântica.

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L. G. E. Arruda

Non-Markovian dynamics of quantum discord

Exact dynamics of single-qubit-gate fidelities under the measurement-based quantum computation scheme

Tripartite State Characterization via Activated Bipartite Entanglement

Computação quântica baseada em medidas projetivas em sistemas quânticos abertos

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