Related papers: Random access Bell game by sequentially measuring the control of the quantum SWITCH

Random access Bell game by sequentially measuring the control of the quantum SWITCH

URL: http://arxiv.org/abs/2511.04272v1
Date: Thu, 06 Nov 2025 11:08:33 GMT
Title: Random access Bell game by sequentially measuring the control of the quantum SWITCH
Authors: Gaurang Agrawal, Saptarshi Roy,
Abstract summary: Preserving quantum correlations such as Bell nonlocality in noisy environments remains a fundamental challenge for quantum technologies.<n>We introduce the Random Access Bell Game (RABG), a task where an entangled particle propagates through a sequence of identical noisy blocks.<n>We consider a scenario where each noisy block is composed of two complete erasure channels, an extreme entanglement-breaking channel with vanishing quantum and classical capacities.
Score: 3.9533044769534453
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Preserving quantum correlations such as Bell nonlocality in noisy environments remains a fundamental challenge for quantum technologies. We introduce the Random Access Bell Game (RABG), a task where an entangled particle propagates through a sequence of identical noisy blocks, and the ability to violate a Bell inequality is tested at a randomly chosen point (access node). We consider a scenario where each noisy block is composed of two complete erasure channels, an extreme entanglement-breaking channel with vanishing quantum and classical capacities. We investigate the performance of the Random Access Bell Game in this configuration and attempt to mitigate the effect of noise by coherently controlling the order of each channel in the noise using the quantum {\tt SWITCH}. However, the quantum {\tt SWITCH} in its canonical setup with a coherent state in the control fails to provide any advantage in the Random Access Bell Game. Our main contribution is a protocol that leverages initial entanglement between the target and control of the quantum {\tt SWITCH} and employs sequential, unsharp measurements on the control system, showing that it is possible to guarantee a Bell violation after an arbitrarily large number of channel applications. Furthermore, our protocol allows for a near-maximal (Tsirelson bound) Bell violation to be achieved at any desired round, while still ensuring violations in all preceding rounds. We prove that this advantage is specific to generalized Greenberger-Horne-Zeilinger (GHZ) states, as the protocol fails for W-class states, thus providing an operational way to distinguish between these two fundamental classes of multipartite entanglement.

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