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Photonic hybrid state entanglement swapping using cat state superpositions

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We propose the use of hybrid entanglement in an entanglement swapping protocol, as means of distributing a Bell state with high fidelity to two parties. The hybrid entanglement used in this work is described as a discrete variable (Fock state) and a continuous variable (cat state super- position) entangled state. We model equal and unequal levels of photonic loss between the two propagating continuous variable modes, before detecting these states via a projective vacuum-one-photon measurement, and the other mode via balanced homodyne detection. We investigate homodyne measurement imperfections, and the associated success probability of the measurement schemes chosen in this protocol. We show that our entanglement swapping scheme is resilient to low levels of photonic losses, as well as low levels of averaged unequal losses between the two propagating modes, and show an improvement in this loss resilience over other hybrid entanglement schemes using coherent state superpositions as the propagating modes. Finally, we conclude that our protocol is suitable for potential quantum networking applications which require two nodes to share entanglement separated over a distance of 5 - 10 km, when used with a suitable entanglement purification scheme.

Original languageEnglish
Article number0237
Number of pages24
JournalProceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
Issue number2243
Publication statusPublished - 18 Nov 2020


  • rspa.2020.0237

    Final published version, 1.65 MB, PDF document

    Licence: CC BY

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