Skip to main content
European Commission logo
English English
CORDIS - EU research results
CORDIS
CORDIS Web 30th anniversary CORDIS Web 30th anniversary
Content archived on 2024-05-29

Photo Hybrid Architecture based on two- and three-dimensional silicon photonic crystals

Objective

Two-dimensional photonic crystals (PhCs) in waveguide geometry are a recent concept for light propagation control, which has seen its main promises verified in the optical range. They have the potential to be the building block of a novel generation of optical circuits combining high-speed processing and very high scale integration. However, for the control of light emission, these 2D PhC suffer from a lack of confinement in the third (vertical) dimension. In this context, three-dimensional issue of nanostructuring, thanks to their bottom-up approach.The purpose of the present experimental and theoretical proposal is to benefit from the versatility and manufacturability of silicon to realize hybrid architectures combining 2D planar PhCs and self-assembled 3D PhCs.The goal is to provide conceptual tools to design advanced photonics architectures combining integrated light sources and routing functions for telecommunications wavelengths. The basic issues addressed will be spontaneous emission control in 3D PhCs, routing functions in 2D PhCs, electrical addressing of PhCs, and coupling between 2D and 3D PhC in hybrid architectures. The present project will address many of the main targets of the thematic priority In-formation Society Technologies, such as the access to all part of the society to the information, by mean of user-friendly and secured services.

Call for proposal

Data not available

Coordinator

UNIVERSITY COLLEGE CORK - NATIONAL UNIVERSITY OF IRELAND, CORK
EU contribution
No data
Address
Lee Maltings
Cork
Ireland

See on map

Total cost
No data

Participants (4)