No-signalling, Contextuality, and the Arrow of Time

Abstract

Bell's seminal paper shows that some correlations in quantum theory are not reconcilable with hidden variables and the classical notion of locality. Yet, a weaker notion of locality, known as no-signalling, survives the no-go-result. Here, we study its restrictiveness by considering the full set of local quantum observables. This leads to a much larger set of no-signalling constraints than usually considered, which is enough to exclude PR-boxes and other types of super-quantum correlations. We emphasise the close connection with contextuality, in particular, we show how no-signalling arises naturally from context composition. Finally, we prove a one-to-one correspondence between quantum states and collections of (non-signalling) probability distributions over product contexts under an additional consistency condition between time arrows in subsystems.