Doctoral Thesis
DOI
https://doi.org/10.11606/T.76.2011.tde-30082011-091437
Document
Author
Full name
Luiz Gustavo Esmenard Arruda
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Carlos, 2011
Supervisor
Committee
Hornos, Jose Eduardo Martinho (President)
Bôas, Celso Jorge Villas
Caldeira, Amir Ordacgi
Novaes, Marcel
Serra, Roberto Menezes
Bôas, Celso Jorge Villas
Caldeira, Amir Ordacgi
Novaes, Marcel
Serra, Roberto Menezes
Title in Portuguese
Computação quântica baseada em medidas projetivas em sistemas quânticos abertos
Keywords in Portuguese
Computação quântica
Descoêrencia
Discórdia quântica
Estados de Cluster
Sistemas quânticos abertos
Descoêrencia
Discórdia quântica
Estados de Cluster
Sistemas quânticos abertos
Abstract in Portuguese
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.
Title in English
Measurement-based quantum computation in open quantum systems
Keywords in English
Cluster States
Decoherence
Open quantum systems
Quantum computation
Quantum discord
Decoherence
Open quantum systems
Quantum computation
Quantum discord
Abstract in English
We use an exact solvable model to calculate the gate fidelity dynamics of a measurement-based quantum computation that interacts with a common dephasing environment. We show that the fidelity of the canonical cluster state oscillates as a function of time and, as a consequence, the measurement-based quantum computer can give better computational results even for a set of slow measurement sequences. Furthermore, we present a necessary condition to the fidelity dynamics of a general quantum state presents a non-monotonical shape.
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Publishing Date
2011-08-31
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