Testing Quantum Theory with Higher-Order Interference in Many-Particle Correlations

Abstract

Quantum theory permits interference between indistinguishable paths but, at the same time, restricts its order. Interference in single-particle correlations, for instance, is limited to the second order, that is, to pairs of single-particle paths. To date, all experimental efforts to search for higher-order interferences beyond those compatible with quantum mechanics have been based on such single-particle correlations. However, quantum physics is not bounded to interference in single-particle correlations. We here experimentally study higher-order interference in many-particle correlations using a two-photon-five-slit setup. We demonstrate that two-particle correlations exhibit nonzero interference up to the fourth order, corresponding to the interference of two distinct two-particle paths. We further show that fifth-order interference is restricted to $10^{-3}$ in the intensity-correlation regime and to $10^{-2}$ in the photon-correlation regime, thus providing novel bounds on the accuracy of quantum theory.