Electro-Optic-Absorption Modulator (EOAM)

Abstract

Electro-optical modulators are the workhorses of the internet. They convert electrical data from computers and smartphones to optical data streams for fiber optic networks, enabling modern data communications like video streaming. This invention is timely since demand for data services is growing rapidly and moving towards next generation communication networks. Taking advantage of their compact footprint, electro-optic converters can be utilized as transducers in optical computing hardware such as optical artificial neural networks that mimic the human brain and a plethora of other applications for modern-day life. Electro-optical modulators in use today are typically between 1 millimeter and 1 centimeter in size. Reducing their size allows increased packaging density, which is vital on a chip. While silicon often serves as the passive structure on which photonic integrated circuits are built, the light matter interaction of silicon materials induces a rather weak optical index change, requiring a larger device footprint. While resonators could be used to boost this weak electro-optical effect, they narrow devices optical operating range and incur high energy consumption from required heating elements. Here we will develop a silicon-based electro-optical modulator that is smaller, as fast as and more efficient than state-of-the-art technologies. By adding indium tin oxide (ITO) a transparent conductive oxide found in touchscreen displays and solar cells to a silicon photonic chip platform, we will be able to create a compact device in size and able to yield tens of gigahertz-fast, signal modulation.

Document Details

Document Type

DoD Grant Award

Publication Date

Mar 07, 2023

Source ID

FA95502110425

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