Related papers: Achievable Entanglement-Assisted Communication Rate using Phase-Modulated Two-Mode Squeezed Vacuum

Achievable Entanglement-Assisted Communication Rate using Phase-Modulated Two-Mode Squeezed Vacuum

URL: http://arxiv.org/abs/2410.17181v1
Date: Tue, 22 Oct 2024 16:58:39 GMT
Title: Achievable Entanglement-Assisted Communication Rate using Phase-Modulated Two-Mode Squeezed Vacuum
Authors: Shang-Jen Su, Shi-Yuan Wang, Matthieu R. Bloch, Zheshen Zhang,
Abstract summary: We derive a closed-form achievable rate for entanglement-assisted classical communication over a lossy bosonic channel, where the entanglement is in the form of a Two-Mode Squeezed Vacuum (TMSV) modulation restricted to Phase Shift Keying (PSK) The achievable rate is non-asymptotic in terms of the mean signal photon number, mean noise photon number, and transmissivity defining the communication channel.
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Abstract: We derive a closed-form achievable rate for entanglement-assisted classical communication over a lossy thermal-noise bosonic channel, where the entanglement is in the form of a Two-Mode Squeezed Vacuum (TMSV) modulation restricted to Phase Shift Keying (PSK). The achievable rate is non-asymptotic in terms of the mean signal photon number, mean noise photon number, and transmissivity defining the communication channel, which provides insights into the interplay of these physical parameters and bridges recent experimental demonstrations of entanglement-assisted communications with the coding theorems used in information-theoretic proofs. The key challenge we address is deriving an analytical bound for the von Neumann entropy of the non-Gaussian mixed state resulting from the phase modulation of one arm of a TMSV. Our approach hinges on two key observations: 1) as the size of the PSK modulation increases, the resulting mixed state converges in trace distance to a diagonal state in the Fock basis; 2) the Fock-basis representation of the diagonal state involves hypergeometric functions that can be appropriately bounded to offer a tractable lower bound for the Holevo information.

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