Materials for a next-generation (nano-)opto-electro-mechanical systems (MAGNIFIC)

Nano-opto-electro-mechanics (NOEMS) is an emerging field with unparalleled prospects for the design of efficient and low-power devices for ICT. However, to capitalize NOEMS potential, a flexible and up-scalable technology platform must be established, preferably based on current microelectronic technology.

MAGNIFIC aims at filling this gap focusing on nanocrystalline silicon (nc-Si), only recently used in NOEMS with very promising results, and its integration with columnar
aluminium nitride. Indeed, while nc-Si is widely used in MEMS production, the dynamics of such anoptically and electrically active nanocrystalline material has barely been investigated, leaving fundamental gaps in the understanding of the interplay between electrons, phoTons and phoNons.

In this context, we propose an up-scalable, cost efficient, room temperature and Si-compatible nano-opto-electro-mechanical platform for powering efficient communications technologies. The key challenge is to achieve a comprehensive understanding of the static and dynamic material properties and their interdependence. In particular, understanding the role of nano-crystallites and grain boundaries in absorption and in dissipation mechanisms at the nanoscale is crucial for energy efficiency and for reliable performance as they are intrinsically linked to losses and variability.

The aimed platform will provide a coherent interface between RF electronics and telecom-wavelength optics mediated by phoNons, able to provide different functionalities (local oscillation, frequency conversion, modulation) in highly compact, energy efficient devices. The project starts at TRL3, achieved via two previous EC projects, and brings the system to TRL5 realizing devices and circuits, suitably packaged, and environmentally tested with RF frequencies in the 3-12 GHz range.

This will allow to cover a broad variety of ICT applications including pervasive wireless networks (5G and beyond), smart cities, IoT and satellite communications.

Funding Entity

European Commission

Call

HORIZON-CL4-2022-RESILIENCE-01

Project ID

101091968

PI at NTC

Alejandro Martínez

From

12/1/2022

To

11/30/2026

Contribution to NTC

€ 815.000

Web

https://euproject-magnific.com/

Research Group

Plasmonics and Optomechanics