Recycled entanglement detection by arbitrarily many sequential and independent pairs of observers

• URL: http://arxiv.org/abs/2201.02594v1
• Date: Fri, 7 Jan 2022 18:37:49 GMT
• Title: Recycled entanglement detection by arbitrarily many sequential and independent pairs of observers
• Authors: Mahasweta Pandit, Chirag Srivastava, Ujjwal Sen
• Abstract summary: We investigate the witnessing of two-qubit entangled states by sequential and independent pairs of observers. We find that a two-qubit entangled state can be used to witness entanglement arbitrarily many times.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We investigate the witnessing of two-qubit entangled states by sequential and independent pairs of observers, with both observers of each pair acting independently on their part of the shared state from spatially separated laboratories, and subsequently passing their qubits to the next pair in the sequence. It has previously been conjectured that not more than one pair of observers can detect Clauser-Horne-Shimony-Holt "Bell-nonlocal" correlations in a similar set-up. This is intriguing since it is possible to have an arbitrarily long sequence of Bell-nonlocal correlations when only a single observer is allowed to share a bipartite state with multiple observers at the other end. It is therefore interesting to ask whether such restrictions are also present when entangled correlations are considered in the scenario of multiple pairs of observers. We find that a two-qubit entangled state can be used to witness entanglement arbitrarily many times, by pairs of observers, acting sequentially and independently. We prove the statement to be true when the initial pair of observers in the sequence share any pure entangled state or when they share a state from a class of mixed entangled states. We demonstrate that the phenomenon can also be observed for a certain class of entangled states in which an arbitrarily long sequence of observer pairs witnessing entanglement is reached in the limit of the initial entanglement content tending to a vanishing amount.

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