Authors: | W. Bogaerts, K.P. Nagarjun, L. Van Iseghem, X. Chen, H. Deng, I. Zand, Y. Zhang, Y. Liu, A.Y. Takabayashi, H. Sattari, N. Quack, P. Edinger, G. Jo, S.J. Bleiker, K.B. Gylfason, F. Niklaus, A. Kumar Mallik, M. Jezzini, C. Antony, G. Talli, P. Verheyen, J. Beeckman, U. Khan | Title: | Scaling Programmable Silicon Photonic Circuits | Format: | International Conference Proceedings | Publication date: | 3/2023 | Journal/Conference/Book: | SPIE Photonics West OPTO
(invited)
| Editor/Publisher: | SPIE, | Volume(Issue): | 12426 p.12426-1 | Location: | San Francisco, United States | DOI: | 10.1117/12.2647293 | Citations: | 2 (Dimensions.ai - last update: 29/9/2024) Look up on Google Scholar
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Abstract
We give an overview the progress of our work in silicon photonic programmable circuits, covering the technology stack from the photonic chip over the driver electronics, packaging technologies all the way to the software layers. On the photonic side, we show our recent results in large-scale silicon photonic circuits with different tuning technologies, including heaters, MEMS and liquid crystals, and their respective electronic driving schemes. We look into the scaling potential of these different technologies as the number of tunable elements in a circuit increases. Finally, we elaborate on the software routines for routing and filter synthesis to enable the photonic programmer. Related Research Topics
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