Physics – Mathematical Physics
Scientific paper
2007-08-30
Physics
Mathematical Physics
13 pages, 2 figures
Scientific paper
We conduct a study based on the Bures (minimal monotone) metric, analogous to that recently reported for the Hilbert-Schmidt (flat or Euclidean) metric (arXiv:0704.3723v2). Among the interesting results obtained there had been proportionalities--in exact correspondence to the Dyson indices \beta = 1, 2, 4 of random matrix theory--between the fourth, second and first powers of the separability functions S_{type}(\mu) for real, complex and quaternionic qubit-qubit scenarios, Here \mu=\sqrt{\frac{\rho_{11} \rho_{44}}{\rho_{22} \rho_{33}}}, with \rho being a 4 x 4 density matrix. Separability functions have proved useful--in the framework of the Bloore (correlation coefficient/off-diagonal scaling) parameterization of density matrices--for the calculation of separability probabilities. We find--for certain, basic simple scenarios (in which the diagonal entries of \rho are unrestricted, and one or two off-diagonal [real, complex or quaternionic] pairs of entries are nonzero) --that these proportionalities no longer strictly hold in the Bures case, but do come remarkably close to holding.
Slater Paul B.
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