Related papers: Super-resolution of ultrafast pulses via spectral inversion

Super-resolution of ultrafast pulses via spectral inversion

URL: http://arxiv.org/abs/2403.12746v2
Date: Fri, 30 Aug 2024 14:32:41 GMT
Title: Super-resolution of ultrafast pulses via spectral inversion
Authors: Michał Lipka, Michał Parniak,
Abstract summary: We experimentally demonstrate a spectroscopic super-resolution method aimed at broadband light (10s to 100s of GHz) We study the paradigmatic problem of estimating a small separation between two incoherent spectral features of equal brightness, with a small number of photons per coherence time. The setup is based on an actively stabilized Mach-Zehnder-type interferometer with electro-optic time lenses and passive spectral dispersers implementing the inversion.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The resolution limits of classical spectroscopy can be surpassed by quantum-inspired methods leveraging the information contained in the phase of the complex electromagnetic field. Their counterpart in spatial imaging has been widely discussed and demonstrated; however, the spectral-domain implementations are few and scarce. We experimentally demonstrate a spectroscopic super-resolution method aimed at broadband light (10s to 100s of GHz), and based on the spectral-domain analog of image inversion interferometry. In a proof-of-principle experiment, we study the paradigmatic problem of estimating a small separation between two incoherent spectral features of equal brightness, with a small number of photons per coherence time. On the grounds of asymptotic estimation theory, more than a $2$-fold improvement over the spectral direct imaging is demonstrated in terms of required resources (photons) for a given estimator variance. The setup is based on an actively stabilized Mach-Zehnder-type interferometer with electro-optic time lenses and passive spectral dispersers implementing the inversion. As such, the method promises on-chip integration, good scalability, and further applications e.g. for mode sorting.

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