Silicon quantum photonics, capable to integrate large numbers of optical components with CMOS-compatible fabrication technology and reliable control of quantum states, is expected to play a critical role in future quantum communication. In this talk, we will introduce our recent results of silicon photonics for quantum communication, including high-dimensional silicon chip-to-chip quantum key distribution, chip-to-chip quantum teleportation, on-chip generation of high-dimensional quantum entanglement, and Hong-Ou-Mandel interference between two different III-V/silicon hybrid lasers towards future measurement device independent quantum communication.
Silicon photonics for quantum communication / Ding; Y.; Bacco D; Llewellyn; D.; Faruque; I.; Paesani; S.; Galili; M.; Laing; A.; Rottwitt; K.; Thompson; M.; Wang; J.b; Oxenløwe; L.K.. - STAMPA. - (2019), pp. 0-0. (Intervento presentato al convegno 21st International Conference on Transparent Optical Networks nel 9-13 July 2019).
Silicon photonics for quantum communication
Bacco D;
2019
Abstract
Silicon quantum photonics, capable to integrate large numbers of optical components with CMOS-compatible fabrication technology and reliable control of quantum states, is expected to play a critical role in future quantum communication. In this talk, we will introduce our recent results of silicon photonics for quantum communication, including high-dimensional silicon chip-to-chip quantum key distribution, chip-to-chip quantum teleportation, on-chip generation of high-dimensional quantum entanglement, and Hong-Ou-Mandel interference between two different III-V/silicon hybrid lasers towards future measurement device independent quantum communication.File | Dimensione | Formato | |
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08840038.pdf
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