Related papers: Shareability of steering in 2-producible states

Shareability of steering in 2-producible states

URL: http://arxiv.org/abs/2404.02725v1
Date: Wed, 3 Apr 2024 13:25:37 GMT
Title: Shareability of steering in 2-producible states
Authors: Qiu-Cheng Song, Travis J. Baker, Howard M. Wiseman,
Abstract summary: Quantum steering is the phenomenon whereby one party proves entanglement by "steering" the system of another party into distinct ensembles of states. We introduce three scenarios which can be straightforwardly implemented in standard quantum optics architecture. Strikingly, using the semi-random pair entanglement construction, one party can steer every one of the $n-1$ other parties, for arbitrarily large $n$, using only two measurements.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Quantum steering is the phenomenon whereby one party (Alice) proves entanglement by "steering'' the system of another party (Bob) into distinct ensembles of states, by performing different measurements on her subsystem. Here, we investigate steering in a network scenario involving $n$ parties, who each perform local measurements on part of a global quantum state, that is produced using only two-party entangled states, and mixing with ancillary separable states. We introduce three scenarios which can be straightforwardly implemented in standard quantum optics architecture, which we call random $\frac{n}{2}$-pair entanglement, random pair entanglement and semi-random pair entanglement. We study steerability of the states across two-party marginals which arise in the three scenarios, and derive analytically the necessary and sufficient steering criteria for different sets of measurement settings. Strikingly, using the semi-random pair entanglement construction, one party can steer every one of the $n-1$ other parties, for arbitrarily large $n$, using only two measurements. Finally, exploiting symmetry, we study various small network configurations (three or four parties) in the three scenarios, under different measurements and produced by different two-party entangled states.

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