Analytical Fock Representation of Two-Mode Squeezing for Quantum Interference (2511.16529v1)

Abstract: Two-mode squeezing is central to entangled-photon generation and nonlinear interferometry, yet standard perturbative low-gain and Gaussian treatments obscure how photon-number amplitudes interfere, especially in multi-crystal geometries and at high gain. Here, we derive the exact analytic action of the two-mode squeezing operator on arbitrary Fock states to analyze nonlinear interferometers directly in the number basis at arbitrary squeezing strength. Within this framework, we find new physical interpretations of previously known quantum interference effects, and theoretically discover a new and unusual multi-photon interference effect in an experimental four-crystal geometry that could readily be observed in laboratories. Our work provides a compact analytic toolkit and concrete design rules for engineering multi-photon interference, with applications in quantum sensing, precision metrology, and advanced quantum state generation.