Full-field mode sorter using two optimized phase transformations for high-dimensional quantum cryptography

Fickler R, Bouchard F, Giese E, Grillo V, Leuchs G, Karimi E (2020)


Publication Type: Journal article

Publication year: 2020

Journal

Book Volume: 22

Journal Issue: 2

DOI: 10.1088/2040-8986/ab6303

Abstract

High-dimensional encoding schemes have emerged as a novel way to perform quantum information tasks. For high dimensionality, temporal and transverse spatial modes of photons are the two paradigmatic degrees of freedom commonly used in such experiments. Nevertheless, general devices for multi-outcome measurements are still needed to take full advantage of the high-dimensional nature of encoding schemes. We propose a general full-field mode sorting scheme consisting of only up to two optimized phase elements based on evolutionary algorithms that allows for joint sorting of azimuthal and radial modes. We further study the performance of our scheme through simulations in the context of high-dimensional quantum cryptography, where sorting in different mutually unbiased bases and high-fidelity measurement schemes are crucial.

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APA:

Fickler, R., Bouchard, F., Giese, E., Grillo, V., Leuchs, G., & Karimi, E. (2020). Full-field mode sorter using two optimized phase transformations for high-dimensional quantum cryptography. Journal of Optics, 22(2). https://dx.doi.org/10.1088/2040-8986/ab6303

MLA:

Fickler, Robert, et al. "Full-field mode sorter using two optimized phase transformations for high-dimensional quantum cryptography." Journal of Optics 22.2 (2020).

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