English

Normalization procedure for relaxation studies in NMR quantum information processing

Quantum Physics 2009-12-22 v1

Abstract

NMR quantum information processing studies rely on the reconstruction of the density matrix representing the so-called pseudo-pure states (PPS). An initially pure part of a PPS state undergoes unitary and non-unitary (relaxation) transformations during a computation process, causing a "loss of purity" until the equilibrium is reached. Besides, upon relaxation, the nuclear polarization varies in time, a fact which must be taken into account when comparing density matrices at different instants. Attempting to use time-fixed normalization procedures when relaxation is present, leads to various anomalies on matrices populations. On this paper we propose a method which takes into account the time-dependence of the normalization factor. From a generic form for the deviation density matrix an expression for the relaxing initial pure state is deduced. The method is exemplified with an experiment of relaxation of the concurrence of a pseudo-entangled state, which exhibits the phenomenon of sudden death, and the relaxation of the Wigner function of a pseudo-cat state.

Keywords

Cite

@article{arxiv.0912.4073,
  title  = {Normalization procedure for relaxation studies in NMR quantum information processing},
  author = {A. Gavini-Viana and A. M. Souza and D. O. Soares-Pinto and J. Teles and R. S. Sarthour and E. R. deAzevedo and T. J. Bonagamba and I. S. Oliveira},
  journal= {arXiv preprint arXiv:0912.4073},
  year   = {2009}
}

Comments

9 pages, 5 figures, to appear in QIP

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