Affiliation:
1. National University of Singapore
2. Rochester Institute of Technology
3. Shandong University
Abstract
Abstract
To reduce system complexity and bridge the interface between electronic and photonic circuits, there is a high demand for a non-volatile memory that can be accessed both electrically and optically. However, practical solutions are still lacking when considering the potential for large-scale CMOS compatible integration. Here, we present an experimental demonstration of a non-volatile photonic-electronic memory based on a ferroelectric-silicon ring resonator. We successfully demonstrate programming and erasing the memory using both electrical and optical methods. The memory cell exhibits a high optical extinction ratio of 6.6 dB at a low working voltage of 5 V and an endurance of 4×104 cycles. Furthermore, the multi-level storage capability is analysed in detail, revealing stable performance with a raw bit-error-rate smaller than 8.8×10-3. This ground-breaking work could be a key technology enabler for future hybrid electronic-photonic systems, targeting a wide range of applications such as photonic interconnect, high-speed data communication, and neuromorphic computing.
Publisher
Research Square Platform LLC
Reference63 articles.
1. Inference in artificial intelligence with deep optics and photonics;Wetzstein G;Nature,2020
2. Analogue computing with metamaterials;Zangeneh-Nejad F;Nat. Rev. Mater.,2021
3. Physics for neuromorphic computing;Marković D;Nat. Rev. Phys.,2020
4. Chen, Z. & Segev, M. Highlighting photonics: looking into the next decade. eLight 1, 2 (2021).
5. High-Performance Mode-Multiplexing Device with Anisotropic Lithium-Niobate-on-Insulator Waveguides;Zhao W;Laser Photonics Rev.,2023