Abstract
We address the problem of quantum nonlocality with positive operator valued measures (POVM) in the context of Einstein-odolsky-osen quantum steering. We show that, given a candidate for local hidden state (LHS) ensemble, the problem of determining the steerability of a bipartite quantum state of finite dimension with POVMs can be formulated as a nesting problem of two convex objects. One consequence of this is the strengthening of the theorem that justifies choosing the LHS ensemble based on symmetry of the bipartite state. As a more practical application, we study the classic problem of the steerability of two-qubit Werner states with POVMs. We show strong numerical evidence that these states are unsteerable with POVMs up to a mixing probability of 12 within an accuracy of 10-3.
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Nguyen, H. C., Milne, A., Vu, T., & Jevtic, S. (2018). Quantum steering with positive operator valued measures. Journal of Physics A: Mathematical and Theoretical, 51(35). https://doi.org/10.1088/1751-8121/aad115
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