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The problem of finding the optimal strategy for estimating a generalized amplitude damping channel _^ (p) by means of the extension id_^ (p) is addressed. We first evaluate the quantum Fisher information of output states based on the symmetric logarithmic derivative and specify all pure-state inputs that maximize the quantum Fisher information. We next investigate the ^e autoparallelity of output state manifolds and characterize the condition for the existence of an efficient estimator. A comparison of these results concludes that, while there is no uniformly optimal input for all p and, a maximally entangled input is an admissible one under a nonasymptotic setting.
Akio Fujiwara (Thu,) studied this question.
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