Litcius/Paper detail

Scalable Generation of Multiphoton Entangled States by Active Feed-Forward and Multiplexing

Evan Meyer-Scott, Nidhin Prasannan, Ish Dhand, Christof Eigner, Viktor Quiring, Sonja Barkhofen, Benjamin Brecht, Martin B. Plenio, Christine Silberhorn

2022Physical Review Letters62 citationsDOIOpen Access PDF

Abstract

Multiphoton entangled quantum states are key to advancing quantum technologies such as multiparty quantum communications, quantum sensing, or quantum computation. Their scalable generation, however, remains an experimental challenge. Current methods for generating these states rely on stitching together photons from probabilistic sources, and state generation rates drop exponentially in the number of photons. Here, we implement a system based on active feed-forward and multiplexing that addresses this challenge. We demonstrate the scalable generation of four-photon and six-photon Greenberger-Horne-Zeilinger states, increasing generation rates by factors of 9 and 35, respectively. This is consistent with the exponential enhancement compared to the standard nonmultiplexed approach that is predicted by our theory. These results facilitate the realization of practical multiphoton protocols for photonic quantum technologies.

Topics & Concepts

PhotonPhysicsQuantum networkQuantum computerMultiplexingScalabilityQuantum teleportationQuantum mechanicsPhotonicsQuantum information scienceQuantum technologyQuantum channelCluster stateComputer scienceQuantum informationQuantumQuantum entanglementTelecommunicationsOpen quantum systemDatabaseQuantum Information and CryptographyNeural Networks and Reservoir ComputingPhotonic and Optical Devices