Wednesday, March 6, 2013

1303.1125 (Paul B. Slater)

Determinantal probability densities at two-qubit
separability-entanglement boundary and associated Fisher information
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Paul B. Slater
The determinants (|rho^{PT}|) of the partial transposes of 4 x 4 density matrices (rho) have possible values in the interval [-1/16, 1/256], and are nonnegative if and only if rho is separable. In arXiv:1301:6617, we reported a "concise" formula for the cumulative/separability Hilbert-Schmidt probability P(alpha) of |rho^{PT}| over the nonnegative subinterval [0, 1/256] where alpha is a Dyson-index-like parameter, with alpha = 1/2 denoting the 9-dimensional generic two-rebit systems, alpha = 1, the 15-dimensional generic two-qubit systems,.... Here, we seek to expand our understanding of the underlying probability distributions p_{alpha}(|rho^{PT}|) over [-1/16, 1/256] by determining their y-intercepts--that is the values at |rho^{PT}| = 0 (the separability-entanglement boundary). Our numerical evidence strongly indicates that p_{2}(0) = 7425 / 34, p_{3}(0)= 7696 / 69, and possibly, that p_{1}(0) = 390. The first derivative p_{alpha}^{'}(0) is positive for alpha = 1/2 and 1, but negative for alpha > 1. We also estimate the Fisher information (declining with alpha) of the alpha-parameterized family of probability distributions p_{alpha}(|rho^{PT}|).
View original: http://arxiv.org/abs/1303.1125

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