Sparse interferometry for measuring multiphoton collective phase
Abstract
A multiphoton collective phase is a multiphoton-scattering feature that cannot be reduced to a sequence of two-photon scattering events, and the three-photon "triad phas" is the smallest nontrivial example. Observing a higher-order collective phase is experimentally challenging, and only triad and four-photon tetrad collective phases have been observed. We introduce a scheme to make higher-order multiphoton collective-phase observations feasible by designing a sparse interferometer, which significantly reduces complexity compared with the current best scheme for observing a multiphoton collective phase. Specifically, our scheme reduces the optical depth from logarithmic to constant and reduces the number of beam splitters from to linear scaling with respect to the collective-phase order . As constant depth reduces loss and dispersion to a fixed rate regardless of collective-phase order, a major obstacle to observing large-scale collective phases is removed.
Keywords
Cite
@article{arxiv.2205.09780,
title = {Sparse interferometry for measuring multiphoton collective phase},
author = {Jizhou Wu and Barry C. Sanders},
journal= {arXiv preprint arXiv:2205.09780},
year = {2022}
}
Comments
15 pages, 4 figures