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No-Go Theorem for Gaussian Quantum Repeaters from Fractional Extendibility

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abstract

Photon loss in optical channels fundamentally limits long-range reliable quantum communication. A standard approach to overcoming this limitation is the use of quantum repeater nodes, which typically perform experimentally demanding non-Gaussian operations. However, whether Gaussian repeater protocols can enhance quantum communication rates over bosonic attenuation channels has remained open. In this work, we prove a no-go theorem for Gaussian quantum repeaters in a quantum network. Specifically, we show that any repeater chain composed of Gaussian operations, homodyne measurements, and arbitrary classical communication cannot enhance the quantum capacity of a pure-loss attenuation channel beyond that achievable by direct transmission. Our proof introduces a generalisation of $k$-extendibility to a notion of fractional extendibility for Gaussian states and establishes some of its useful properties, thereby providing a powerful framework for analysing Gaussian quantum networks.

fields

quant-ph 1

years

2026 1

verdicts

UNVERDICTED 1

representative citing papers

Energetics of non-Gaussianity in single mode cavities

quant-ph · 2026-06-30 · unverdicted · novelty 5.0

An energetic decomposition defines a non-Gaussianity measure for pure single-mode states that connects to relative entropy and serves as a witness for mixed states.

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  • Energetics of non-Gaussianity in single mode cavities quant-ph · 2026-06-30 · unverdicted · none · ref 25 · internal anchor

    An energetic decomposition defines a non-Gaussianity measure for pure single-mode states that connects to relative entropy and serves as a witness for mixed states.