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Inverse-designed multi-wavelength, multi-mode optical interconnects using soliton microcombs
Document Type
Conference
Author
Yang, K. Y.White, A. D.Ashtiani, F.Shirpurkar, C.Pericherla, S. V.Chang, L.Song, H.Zou, K.Zhou, H.Pang, K.Yang, J.Guidry, M. A.Lukin, D. M.Hao, H.Trask, L.Ahn, G. H.Netherton, A.Briles, T. C.Stone, J. R.Rechtman, L.Stone, J. S.Gasse, K. VanSkarda, J. L.Su, L.Vercruysse, D.MacLean, J. P.W.Aghaeimeibodi, S.Li, M. -J.Miller, D. A.B.Marom, D. M.Papp, S. B.Willner, A. E.Bowers, J. E.Delfyett, P. J.Aflatouni, F.Vuckovic, J.
Source
2022 Conference on Lasers and Electro-Optics (CLEO) Lasers and Electro-Optics (CLEO), 2022 Conference on. :1-2 May, 2022
Subject
Photonics and Electrooptics
Multiplexing
Integrated optics
Optical interconnections
Solitons
Lasers and electrooptics
Laser modes
Silicon
(130.3120) Integrated optics devices
(200.4650) Optical interconnects
Language
Abstract
We demonstrate 130 Gbps transmission in each of 4 spatial modes using Si 3 N 4 soliton microcombs and inverse-designed silicon mode multiplexers. Out of 52 carriers, 42 data channels show natively error-free data transmission.

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