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Quantum Algorithms
Tight asymptotic bounds on local hypothesis testing between a pure bipartite state and the white noise state
arXiv
Authors: Masahito Hayashi, Masaki Owari
Year
2014
Paper ID
47537
Status
Preprint
Abstract Read
~2 min
Abstract Words
127
Citations
N/A
Abstract
We consider asymptotic hypothesis testing (or state discrimination with asymmetric treatment of errors) between an arbitrary fixed bipartite pure state ketΨ and the completely mixed state under one-way LOCC (local operations and classical communications), two-way LOCC, and separable POVMs. As a result, we derive the Hoeffding bounds under two-way LOCC POVMs and separable POVMs. Further, we derive a Stein's lemma type of optimal error exponents under one-way LOCC, two-way LOCC, and separable POVMs up to the third order, which clarifies the difference between one-way and two-way LOCC POVM. Our study gives a very rare example in which the optimal performance under the infinite-round two-way LOCC is also equal to that under separable operations and can be attained with two-round communication, but not attained with the one-way LOCC.
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- We consider asymptotic hypothesis testing (or state discrimination with asymmetric treatment of errors) between an arbitrary fixed bipartite pure state ketΨ and the completely...
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