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Quantum circuits with many photons on a programmable nanophotonic chip

J. M. Arrazola, V. Bergholm, K. Brádler, T. R. Bromley, M. J. Collins, I. Dhand, A. Fumagalli, T. Gerrits, A. Goussev, L. G. Helt, J. Hundal, T. Isacsson, R. B. Israel, J. Izaac, S. Jahangiri, R. Janik, N. Killoran, S. P. Kumar, J. Lavoie, A. E. Lita, D. H. Mahler, M. Menotti, B. Morrison, S. W. Nam, L. Neuhaus, H. Y. Qi, N. Quesada, A. Repingon, K. K. Sabapathy, M. Schuld, D. Su, J. Swinarton, A. Száva, K. Tan, P. Tan, V. D. Vaidya, Z. Vernon, Z. Zabaneh, Y. Zhang

2021Nature538 citationsDOIOpen Access PDF

Topics & Concepts

PhotonicsPhotonQuantum sensorQuantum computerPhysicsComputer scienceQuantum opticsQuantum imagingQuantumQuantum technologyChipQuantum informationQuantum circuitElectronic circuitOptoelectronicsQuantum gateQuantum networkQuantum information scienceIntegrated circuitElectronic engineeringField-programmable gate arrayPhotonic integrated circuitNanophotonicsPhoton countingGaussianComputer hardwareProgrammable logic deviceQuantum stateSqueezed coherent stateQuantum logicQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyNeural Networks and Reservoir Computing
Quantum circuits with many photons on a programmable nanophotonic chip | Litcius