학술논문
Optical data transmission using inverse-designed silicon multimode photonic circuits and spectrally flattened microcombs
Document Type
Conference
Author
Yang, K. Y.; Shirpurkar, C.; White, A. D.; Zang, J.; Chang, L.; Ashtiani, F.; Guidry, M. A.; Lukin, D. M.; Pericherla, S. V.; Yang, J.; Kwon, H.; Lu, J.; Ahn, G. H.; Van Gasse, K.; Jin, Y.; Yu, S. -P.; Briles, T. C.; Stone, J. R.; Carlson, D. R.; Song, H.; Zou, K.; Zhou, H.; Pang, K.; Hao, H.; Trask, L.; Li, M.; Netherton, A.; Rechtman, L.; Stone, J. S.; Skarda, J. L.; Su, L.; Vercruysse, D.; MacLean, J. P. W.; Aghaeimeibodi, S.; Li, M.-J.; Miller, D. A.B.; Marom, D. M.; Willner, A. E.; Bowers, J. E.; Papp, S. B.; Delfyett, P. J.; Aflatouni, F.; Vuckovic, J.
Source
2023 Conference on Lasers and Electro-Optics (CLEO) Lasers and Electro-Optics (CLEO), 2023 Conference on. :1-2 May, 2023
Subject
Language
Abstract
We demonstrate a 1.12-Tbps error-free data transmission throughout inverse-designed multimode photonic circuits using spectrally flattened microcombs as a multi-wavelength laser source.