This paper establishes the equivalence of four seemingly distinct types of quantum nonlocality: face nonsignaling correlations, full nonlocality, all-versus-nothing proofs, and pseudotelepathy, demonstrating that they represent the same fundamental resource with significant implications for quantum information processing.
This paper presents a novel method, the "girth method," for constructing nonlocal games with a large gap between classical and quantum winning probabilities, demonstrating a significant advantage of quantum strategies over classical ones.
This research paper demonstrates a specific relationship between entanglement witnesses and the presence of quantum nonlocality in the confidence of measurement during multipartite quantum state discrimination.
This paper presents a sufficient and necessary condition for the strongest form of quantum nonlocality in N-partite systems and uses it to construct smaller sets of genuinely entangled states exhibiting this property, potentially leading to more resource-efficient quantum information processing.