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Random Access Code protocols: Quantum advantage related to intraparticle entanglement-based contextuality

量子物理 2026-05-19 v2 数学物理 math.MP

摘要

The quantum enhancement of success probability in the Random Access Code (RAC) protocols remains unexplored from two important perspectives. First, the use of entanglement between two co-measurable degrees of freedom of a single particle (intraparticle entanglement) in achieving such quantum enhancement has not been investigated. Second, no explicit quantitative correspondence has been established between the predicted/observed quantum advantage and the underlying quantum resource responsible for it. In this work, we address both these aspects simultaneously by harnessing a single-particle resource. For this purpose, the RAC protocol is formulated in terms of intraparticle entanglement between, for instance, spin/polarization and path degrees of freedom of a single particle. Within this framework, a relevant Bell-type inequality, derived from the assumption of noncontextuality for single particle path-spin measurements, is used. Based on these ingredients, the formulated analysis reveals that the magnitude of quantum-mechanical violation of such Bell-type inequality, signifying a form of quantum contextuality, is quantitatively commensurate with the quantum enhancement of success probability in any intraparticle entanglement-assisted nn-bit RAC protocol. In particular, the maximal success probability of a quantum n1n \mapsto 1 RAC protocol corresponds to the maximal quantum violation of the relevant Bell-type inequality. This correspondence is empirically testable using a readily implementable single-particle interferometric setup requiring coherence preservation only for a single particle.

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引用

@article{arxiv.2605.13350,
  title  = {Random Access Code protocols: Quantum advantage related to intraparticle entanglement-based contextuality},
  author = {Nilaj Saha and Sumit Mukherjee and Dipankar Home},
  journal= {arXiv preprint arXiv:2605.13350},
  year   = {2026}
}

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