English

Experimental generalized contextuality with single-photon qubits

Quantum Physics 2019-03-26 v3

Abstract

Contextuality is a phenomenon at the heart of the quantum mechanical departure from classical behaviour, and has been recently identified as a resource in quantum computation. Experimental demonstration of contextuality is thus an important goal. The traditional form of contextuality -- as violation of a Kochen-Specker inequality -- requires a quantum system with at least three levels, and the status of the assumption of determinism used in deriving those inequalities has been controversial. By considering `unsharp' observables, Liang, Spekkens and Wiseman (LSW) derived an inequality for generalized noncontextual models that doesn't assume determinism, and applies already to a qubit. We experimentally implement the LSW test using the polarization states of a heralded single photon and three unsharp binary measurements. We violate the LSW inequality by more than 16 standard deviations, thus showing that our results cannot be reproduced by a noncontextual subset of quantum theory.

Keywords

Cite

@article{arxiv.1505.06825,
  title  = {Experimental generalized contextuality with single-photon qubits},
  author = {Xiang Zhan and Eric G. Cavalcanti and Jian Li and Zhihao Bian and Yongsheng Zhang and Howard M. Wiseman and Peng Xue},
  journal= {arXiv preprint arXiv:1505.06825},
  year   = {2019}
}

Comments

7 pages, 3 figure + supplementary information. To appear in Optica

R2 v1 2026-06-22T09:41:13.506Z