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Campo DC | Valor | Idioma |
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dc.contributor.author | Moqadam, Jalil Khatibi | - |
dc.contributor.author | Welter, Guilherme Sausen | - |
dc.contributor.author | Esquef, Paulo Antonio Andrade | - |
dc.date.accessioned | 2023-04-27T14:09:05Z | - |
dc.date.issued | 2016 | por |
dc.identifier.doi | https://doi.org/10.1007/s11128-016-1409-6 | por |
dc.identifier.uri | https://deposita.ibict.br/handle/deposita/298 | - |
dc.description.resumo | We analyze the multifractality in the fidelity sequences of several engineered Toffoli gates. Using quantum control methods, we consider several optimization problems whose global solutions realize the gate in a chain of three qubits with XY Heisenberg interaction. Applying a minimum number of control pulses assuring a fidelity above 99 % in the ideal case, we design stable gates that are less sensitive to variations in the interqubits couplings. The most stable gate has the fidelity above 91 % with variations about 0.1 %, for up to 10 % variation in the nominal couplings. We perturb the system by introducing a single source of 1 / f noise that affects all the couplings. In order to quantify the performance of the proposed optimized gates, we calculate the fidelity of a large set of optimized gates under prescribed levels of coupling perturbation. Then, we run multifractal analysis on the sequence of attained fidelities. This way, gate performance can be assessed beyond mere average results, since the chosen multifractality measure (the width of the multifractal spectrum) encapsulates into a single performance indicator the spread of fidelity values around the mean and the presence of outliers. The higher the value of the performance indicator the more concentrated around the mean the fidelity values are and rarer is the occurrence of outliers. The results of the multifractal analysis on the fidelity sequences demonstrate the effectiveness of the proposed optimized gate implementations, in the sense they are rendered less sensitive to variations in the interqubits coupling strengths. | por |
dc.description.abstract | We analyze the multifractality in the fidelity sequences of several engineered Toffoli gates. Using quantum control methods, we consider several optimization problems whose global solutions realize the gate in a chain of three qubits with XY Heisenberg interaction. Applying a minimum number of control pulses assuring a fidelity above 99 % in the ideal case, we design stable gates that are less sensitive to variations in the interqubits couplings. The most stable gate has the fidelity above 91 % with variations about 0.1 %, for up to 10 % variation in the nominal couplings. We perturb the system by introducing a single source of 1 / f noise that affects all the couplings. In order to quantify the performance of the proposed optimized gates, we calculate the fidelity of a large set of optimized gates under prescribed levels of coupling perturbation. Then, we run multifractal analysis on the sequence of attained fidelities. This way, gate performance can be assessed beyond mere average results, since the chosen multifractality measure (the width of the multifractal spectrum) encapsulates into a single performance indicator the spread of fidelity values around the mean and the presence of outliers. The higher the value of the performance indicator the more concentrated around the mean the fidelity values are and rarer is the occurrence of outliers. The results of the multifractal analysis on the fidelity sequences demonstrate the effectiveness of the proposed optimized gate implementations, in the sense they are rendered less sensitive to variations in the interqubits coupling strengths. | eng |
dc.description.provenance | Submitted by Paulo Esquef (pesquef@lncc.br) on 2021-12-16T15:42:52Z No. of bitstreams: 1 QIP_2016_post_print.pdf: 4139665 bytes, checksum: 72e9dfc86656d3a2ff10be46c305e4c7 (MD5) | eng |
dc.description.provenance | Approved for entry into archive by Juliana s (julianasousa@ibict.br) on 2023-04-27T14:09:05Z (GMT) No. of bitstreams: 1 QIP_2016_post_print.pdf: 4139665 bytes, checksum: 72e9dfc86656d3a2ff10be46c305e4c7 (MD5) | eng |
dc.description.provenance | Made available in DSpace on 2023-04-27T14:09:05Z (GMT). No. of bitstreams: 1 QIP_2016_post_print.pdf: 4139665 bytes, checksum: 72e9dfc86656d3a2ff10be46c305e4c7 (MD5) Previous issue date: 2016 | eng |
dc.format | application/pdf | * |
dc.language | eng | por |
dc.publisher | Laboratório Nacional de Computação Científica | por |
dc.publisher.country | Estados unidos | por |
dc.relation.ispartof | Quantum Information Processing | por |
dc.rights | openAccess | por |
dc.subject | quantum computation | eng |
dc.subject | quantum control | eng |
dc.subject | time series analysis | eng |
dc.subject.cnpq | Processamento de Sinais | por |
dc.subject.cnpq | Física clássica e física quântica; Mecânica e Campos | por |
dc.title | Multifractality in Fidelity Sequences of Optimized Toffoli Gates | por |
dc.title.alternative | Multifractalidade em Sequências de Fidelidade de Portas de Toffoli Otimizadas | por |
dc.type | Artigo | por |
dc.citation.spage | 4501 | por |
dc.citation.epage | 4520 | por |
dc.citation.volume | 15 | por |
Aparece nas coleções: | Sudeste |
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QIP_2016_post_print.pdf | Post-print do artigo | 4,04 MB | Adobe PDF | Baixar/Abrir Pré-Visualizar |
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