NUCLEAR SPIN 3/2 ELECTRIC QUADRUPOLE RELAXATION AS A QUANTUM COMPUTATION PROCESS

SOUZA, A. M.; GAVINI-VIANA, A.; OLIVERIA, I. S.; SARTHOR, R. S.; AUCCAISE, R.; AZEVÊDO, Eduardo Ribeiro de; BONAGAMBA, Tito José

Artículos de revistas

Fecha

2010

Registro en:

QUANTUM INFORMATION & COMPUTATION, v.10, n.7/Ago, p.653-668, 2010

1533-7146

http://producao.usp.br/handle/BDPI/30124

http://apps.isiknowledge.com/InboundService.do?Func=Frame&product=WOS&action=retrieve&SrcApp=EndNote&UT=000280509300006&Init=Yes&SrcAuth=ResearchSoft&mode=FullRecord

http://repositorioslatinoamericanos.uchile.cl/handle/2250/1626764

Autor

SOUZA, A. M.

GAVINI-VIANA, A.

OLIVERIA, I. S.

SARTHOR, R. S.

AUCCAISE, R.

AZEVÊDO, Eduardo Ribeiro de

BONAGAMBA, Tito José

Institución

Universidade de São Paulo (Brasil)

Resumen

In this work we applied a quantum circuit treatment to describe the nuclear spin relaxation. From the Redfield theory, we obtain a description of the quadrupolar relaxation as a computational process in a spin 3/2 system, through a model in which the environment is comprised by five qubits and three different quantum noise channels. The interaction between the environment and the spin 3/2 nuclei is described by a quantum circuit fully compatible with the Redfield theory of relaxation. Theoretical predictions are compared to experimental data, a short review of quantum channels and relaxation in NMR qubits is also present.

Materias

Quantum Circuit

Relaxation

NMR

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