Litcius/Paper detail

Generation of a time–bin Greenberger–Horne–Zeilinger state with an optical switch

Hsin-Pin Lo, Takuya Ikuta, Koji Azuma, Toshimori Honjo, William J. Munro, Hiroki Takesue

2023Quantum Science and Technology12 citationsDOIOpen Access PDF

Abstract

Abstract Multipartite entanglement is a critical resource in quantum information processing that exhibits much richer phenomenon and stronger correlations than in bipartite systems. This advantage is also reflected in its multi-user applications. Although many demonstrations have used photonic polarization qubits, polarization-mode dispersion confines the transmission of photonic polarization qubits through an optical fiber. Consequently, time–bin qubits have a particularly important role to play in quantum communication systems. Here, we generate a three-photon time–bin Greenberger–Horne–Zeilinger (GHZ) state using a 2 × 2 optical switch as a time-dependent beam splitter to entangle time–bin Bell states from a spontaneous parametric down-conversion source and a weak coherent pulse. To characterize the three-photon time–bin GHZ state, we performed measurement estimation, showed a violation of the Mermin inequality, and used quantum state tomography to fully reconstruct a density matrix, which shows a state fidelity exceeding 70%. We expect that our three-photon time–bin GHZ state can be used for long-distance multi-user quantum communication.

Topics & Concepts

QubitQuantum entanglementPhysicsQuantum information scienceBinPhotonPhotonicsQuantum mechanicsW stateQuantumComputer scienceAlgorithmQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum optics and atomic interactions