Multimode Fock states with large photon number: effective descriptions and applications in quantum metrology
Abstract
We develop general tools to characterise and efficiently compute relevant observables of multimode N-photon states generated in non-linear decays in one-dimensional waveguides. We then consider optical interferometry in a Mach-Zender interferometer where a d-mode photonic state enters in each arm of the interferometer. We derive a simple expression for the Quantum Fisher Information in terms of the average photon number in each mode, and show that it can be saturated by number-resolved photon measurements that do not distinguish between the different d modes.
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