High Brightness programmable source of frequency-bin qubits.

M. Clementi; F. A. Sabattoli; H. El Dirani; N. Bergamasco; L. Gianini; L. Gianini; L. Youssef; C. Petit-Etienne; E. Pargon; M. Liscidini; C. Sciancalepore; M. Galli; D. Bajoni

doi:10.1364/QUANTUM.2022.QW3B.5

Quantum 2.0 Conference and Exhibition
Technical Digest Series (Optica Publishing Group, 2022),
paper QW3B.5
•https://doi.org/10.1364/QUANTUM.2022.QW3B.5

High Brightness programmable source of frequency-bin qubits.

M. Clementi, F. A. Sabattoli, H. El Dirani, N. Bergamasco, L. Gianini, L. Youssef, C. Petit-Etienne, E. Pargon, M. Liscidini, C. Sciancalepore, M. Galli, and D. Bajoni

Quantum 2.0 2022

Boston, MA United States
13–16 June 2022
ISBN: 978-1-957171-11-1

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Sources & Detectors I (QW3B)

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M. Clementi, F. A. Sabattoli, H. E. Dirani, N. Bergamasco, L. Gianini, L. Youssef, C. Petit-Etienne, E. Pargon, M. Liscidini, C. Sciancalepore, M. Galli, and D. Bajoni, "High Brightness programmable source of frequency-bin qubits.," in Quantum 2.0 Conference and Exhibition, Technical Digest Series (Optica Publishing Group, 2022), paper QW3B.5.

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Abstract

A high brightness silicon integrated source of entangled frequency-bins is presented. We experimentally demonstrate programmable emission of both computational basis states and Bell states.

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