Saved in:
Bibliographic Details
Main Authors: Cabrejo-Ponce, Meritxell, Spiess, Christopher, Sevilla-Gutiérrez, Carlos, Steinlechner, Fabian
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.03295
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909723360493568
author Cabrejo-Ponce, Meritxell
Spiess, Christopher
Sevilla-Gutiérrez, Carlos
Steinlechner, Fabian
author_facet Cabrejo-Ponce, Meritxell
Spiess, Christopher
Sevilla-Gutiérrez, Carlos
Steinlechner, Fabian
contents Quantum secret sharing (QSS) is a multi-party quantum communication protocol that can be realized with bipartite entanglement and relative phase encoding. Previous implementations typically encoded the phase in the pump, applying it across the entire source bandwidth, thereby limiting scalability via wavelength multiplexing. In contrast, we present a variant of the standard QSS protocol that leverages frequency correlations to connect multiple users with a single source. The secret owner, who has access to the source, encodes classical information by applying frequency-dependent phase modulation to a broadband polarization-entangled photon pair. Each frequency channel therefore provides an independent QSS session among the secret owner and a pair of users. We demonstrate state fidelities of at least 90% for a channel pair of the 200 GHz ITU grid, which could be extended to more than 40 frequency bins with adequate dense-wavelength division multiplexed filters. Our results provide a resource-efficient path toward multi-user secret sharing over wavelength-multiplexed networks, eliminating the need for multiple two-photon or multi-photon sources.
format Preprint
id arxiv_https___arxiv_org_abs_2508_03295
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Frequency subspace encoding for multiplexed quantum secret sharing
Cabrejo-Ponce, Meritxell
Spiess, Christopher
Sevilla-Gutiérrez, Carlos
Steinlechner, Fabian
Quantum Physics
Quantum secret sharing (QSS) is a multi-party quantum communication protocol that can be realized with bipartite entanglement and relative phase encoding. Previous implementations typically encoded the phase in the pump, applying it across the entire source bandwidth, thereby limiting scalability via wavelength multiplexing. In contrast, we present a variant of the standard QSS protocol that leverages frequency correlations to connect multiple users with a single source. The secret owner, who has access to the source, encodes classical information by applying frequency-dependent phase modulation to a broadband polarization-entangled photon pair. Each frequency channel therefore provides an independent QSS session among the secret owner and a pair of users. We demonstrate state fidelities of at least 90% for a channel pair of the 200 GHz ITU grid, which could be extended to more than 40 frequency bins with adequate dense-wavelength division multiplexed filters. Our results provide a resource-efficient path toward multi-user secret sharing over wavelength-multiplexed networks, eliminating the need for multiple two-photon or multi-photon sources.
title Frequency subspace encoding for multiplexed quantum secret sharing
topic Quantum Physics
url https://arxiv.org/abs/2508.03295