Elmalem, ShayLubin, GurWayne, MichaelBruschini, ClaudioCharbon, EdoardoOron, Dan2025-04-292025-04-292025-04-282025-04-2010.1364/OPTICA.5504982-s2.0-105003071363https://infoscience.epfl.ch/handle/20.500.14299/249470Temporal photon correlations have been a crucial resource for quantum and quantum-enabled optical science for over half a century. However, attaining non-classical information through these correlations has typically been limited to a single point (or, at best, a few points) at a time. Here, we perform a massively multiplexed wide-field photon correlation measurement using a large 500 × 500 single-photon avalanche diode array, the SwissSPAD3. We demonstrate the performance of this apparatus by acquiring wide-field photon correlation measurements of single-photon emitters and illustrate two applications of the attained quantum information: wide-field emitter counting and quantum-enabled super-resolution imaging (by a factor of √2). The considerations and limitations of applying this technique in a practical context are discussed. Ultimately, the realization of massively multiplexed wide-field photon correlation measurements can accelerate quantum sensing protocols and quantum-enabled imaging techniques by orders of magnitude.truetext::journal::journal article::research article