Non-Classicality Criteria in Multi-port Interferometry

Quantum interference lies at the basis of fundamental differences between quantum and classical behaviors. It is thus crucial to understand the boundaries between what interference patterns can be described by classical wave mechanics and what, on the other hand, can only be understood with a proper quantum mechanical description. While a lot of work has already been done for the simple case of two-mode interference, the multi-mode case has not been fully explored yet. Here we derive bounds for classical models of light fields in a general scenario of intensity interferometry, and we show how they can be violated in a quantum framework. As a consequence, this violation acts as a non-classicality witness, able to detect the presence of sources with sub-Poissonian photon-number statistics. We also derive a criterion for certifying the indivisibility of a quantum interferometer and obtain a method to simultaneously measure the average pairwise distinguishability of the input sources