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Bibliographic Details
Main Authors: Su, Zu-En, Taitler, Boaz, Schwartz, Ido, Cogan, Dan, Nassar, Ismail, Kenneth, Oded, Lindner, Netanel H., Gershoni, David
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.03820
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Table of Contents:
  • Cluster states are key resources for measurement-based quantum information processing. Photonic cluster and graph states, in particular, play indispensable roles in quantum network and quantum metrology. We demonstrate a semiconductor quantum dot based device in which the confined hole spin acts as a needle in a quantum knitting machine producing continuously and deterministically at sub-Gigahertz repetition rate single indistinguishable photons which are all polarization entangled to each other and to the spin in a one dimensional cluster state. By projecting two nonadjacent photons onto circular polarization bases we disentangle the spin from the photons emitted in between, thus continuously and deterministically preparing all-photonic cluster states for the first time. We use polarization tomography on four sequentially detected photons to demonstrate and to directly quantify the robustness of the cluster's entanglement and the determinism in its photon generation.