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Bibliographic Details
Main Authors: Olszewski, Mateusz J, Alexander, Kasper Hecht, Woodley, Michael T M, Murphy, Leah R, Mosley, Peter J, Davis, Alex O C
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.06796
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author Olszewski, Mateusz J
Alexander, Kasper Hecht
Woodley, Michael T M
Murphy, Leah R
Mosley, Peter J
Davis, Alex O C
author_facet Olszewski, Mateusz J
Alexander, Kasper Hecht
Woodley, Michael T M
Murphy, Leah R
Mosley, Peter J
Davis, Alex O C
contents We introduce an experimental technique for complete phase-sensitive characterization of arbitrary unitary spectral-temporal transformations of optical modes. Our method recovers the complex spectral transfer function, or Green's function, of a frequency converter by analyzing spectral interference in the response to a tunable bichromatic probe. We perform a proof-of-concept experiment on a frequency conversion module based on Bragg-scattering four-wave mixing in photonic crystal fiber. Our results validate our technique by recovering useful information in the phase of the Green's function, revealing the relative positions of regions of active frequency conversion and passive dispersive propagation within the module. Our work introduces a new approach to characterizing the performance of a variety of active devices with diverse applications in emerging quantum technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2602_06796
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Phase-sensitive characterization of a quantum frequency converter by spectral interferometry
Olszewski, Mateusz J
Alexander, Kasper Hecht
Woodley, Michael T M
Murphy, Leah R
Mosley, Peter J
Davis, Alex O C
Quantum Physics
Optics
We introduce an experimental technique for complete phase-sensitive characterization of arbitrary unitary spectral-temporal transformations of optical modes. Our method recovers the complex spectral transfer function, or Green's function, of a frequency converter by analyzing spectral interference in the response to a tunable bichromatic probe. We perform a proof-of-concept experiment on a frequency conversion module based on Bragg-scattering four-wave mixing in photonic crystal fiber. Our results validate our technique by recovering useful information in the phase of the Green's function, revealing the relative positions of regions of active frequency conversion and passive dispersive propagation within the module. Our work introduces a new approach to characterizing the performance of a variety of active devices with diverse applications in emerging quantum technologies.
title Phase-sensitive characterization of a quantum frequency converter by spectral interferometry
topic Quantum Physics
Optics
url https://arxiv.org/abs/2602.06796