Nonclassical effects in two-photon interference experiments: event-by-event simulations

Abstract

It is shown that both the visibility V = 1/2 predicted for two-photon interference experiments with two independent sourcesblack, like the Hanbury Brown-Twiss experiment, and the visibility V = 1 predicted for two-photon interference experiments with a parametric down-conversion sourceblack, like the Ghosh-Mandel experiment, can be explained blackby a discrete event simulation. This simulation approach reproduces the statistical distributions of wave theory not by requiring the knowledge of the solution of the wave equation of the whole system but by generating detection events one-by-one according to an unknown distribution. There is thus no need to invoke quantum theory to explain the so-called nonclassical effects in the interference of signal and idler photons in parametric down conversion. Hence, a revision of the commonly accepted criterion of the nonclassical nature of lightblack, V > 1/2, is called for.