Authors:	H. Deng, J. Zhang, E. Soltanian, X. Chen, C. Pang, N. Vaissiere, D. Neel, J. Ramirez, J. Decobert, N. Singh, G. Torfs, G. Roelkens, W. Bogaerts
Title:	Fully integrated single-chip silicon photonic processor for analog optical and microwave signals
Format:	International Conference Proceedings
Publication date:	1/2025
Journal/Conference/Book:	SPIE Photonics West - Optical Interconnects and Packaging (invited)
Editor/Publisher:	SPIE,
Volume(Issue):	13372 p.1337206
Location:	San Francisco, United States
DOI:	10.1117/12.3044760
Citations:	Look up on Google Scholar
Download:	(895KB)

Abstract

We propose a single-chip analog signal processor built in silicon photonics technology, capable of implementing programmable operations on both optical and RF signals, and converting between the two domains. This chip contains a configurable modulator capable of both phase modulation and amplitude modulation, transfer-printed tunable laser sources, and a programmable optical filter bank. This chip can be configured to implement a variety of functions on both microwave signals and optical signals, including electro-optical and opto-electric conversion, optical and RF signal generation (tunable laser sources and opto-electronic oscillators) and filtering, and RF signal multiplexing.

Related Research Topics

• Reconfigurable Photonic Circuits

Related Projects

• H2020: MORPHIC (MEMS-based zerO-power Reconfigurable Photonic ICs)
• ERC-CoG: PhotonicSWARM (Photonic Integrated Circuits using Scattered Waveguide elements in an Adaptive, Reconfigurable Mesh.)
• Horizon Europe: PHORMIC (Wafer-scale platform for Photonic Programmable Multipurpose Integrated Circuits)