A 12-mode universal photonic processor for quantum information processing
C Taballione, R van der Meer, HJ Snijders… - arXiv preprint arXiv …, 2020 - arxiv.org
arXiv preprint arXiv:2012.05673, 2020•arxiv.org
Photonic processors are pivotal for both quantum and classical information processing tasks
using light. In particular, linear optical quantum information processing requires both
largescale and low-loss programmable photonic processors. In this paper, we report the
demonstration of the largest universal quantum photonic processor to date: a low-loss, 12-
mode fully tunable linear interferometer with all-to-all coupling based on stoichiometric
silicon nitride waveguides.
using light. In particular, linear optical quantum information processing requires both
largescale and low-loss programmable photonic processors. In this paper, we report the
demonstration of the largest universal quantum photonic processor to date: a low-loss, 12-
mode fully tunable linear interferometer with all-to-all coupling based on stoichiometric
silicon nitride waveguides.
Photonic processors are pivotal for both quantum and classical information processing tasks using light. In particular, linear optical quantum information processing requires both largescale and low-loss programmable photonic processors. In this paper, we report the demonstration of the largest universal quantum photonic processor to date: a low-loss, 12-mode fully tunable linear interferometer with all-to-all coupling based on stoichiometric silicon nitride waveguides.
arxiv.org
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