A Novel Optical Coupler for Nanophotonics
Lead Research Organisation:
University of Surrey
Department Name: Advanced Technology Institute
Abstract
During a previous EPSRC grant we developed a novel means of coupling light from an optical fibre to a very small semiconductor waveguides, of the order on 250nm in height, resulting in numerous publications and a patent. The predicted theoretical efficiency for the best device design was in excess of 90%, but when fabricated at the Southampton Microelectronics facility, the dimensions produced were incorrect due to an equipment failure, reducing the efficiency to a theoretical value of ~60%. Measured efficiency of this device was 55%, which is clearly very encouraging. Southampton University have agreed to provide devices of the correct dimensions that now need to be characterised in terms of coupling efficiency, polarisation and thermal performance. This one year project will characterise the devices, and will potentially demonstrate the highest coupling efficiency in the world into such a small device. This potentially world leading result will have immediate impact as this is a topical subject of research at present, particularly for novel applications such as optical interconnect.
Organisations
People |
ORCID iD |
Graham Reed (Principal Investigator) |
Publications
G Mashanovich
(2007)
Silicon photonic waveguides in Silicon photonics / the state of the art
G Mashanovich
(2007)
Directional coupling to small silicon photonic waveguides
in Journal of Optics A: Pure and Applied Optics
Reed G
(2006)
Issues Associated With Polarization Independence in Silicon Photonics
in IEEE Journal of Selected Topics in Quantum Electronics
Passaro V
(2006)
Design of SiON-based grating-assisted vertical directional couplers.
in Optics express
Reed G
(2006)
Silicon Photonics: Are Smaller Devices Always Better?
in Japanese Journal of Applied Physics
Description | A novel device design was developed and an associated patent was filed. AT the time this was regarded as an excellent step forward in the technology. Subsequent variation on the them were published by others |
Exploitation Route | Led to improved knowledge that has supported future grants. An improved variant of this type of device in now being used in a 2014 Programme grant |
Sectors | Digital/Communication/Information Technologies (including Software) |
Title | Dual grating assisted optical coupler |
Description | An optical coupler comprises an input waveguide, an intermediate waveguide, an output waveguide, a first grating situated between the input and intermediate waveguides, and a second grating situated between the intermediate and output waveguides such that, in use, light propagating in the input waveguide is coupled into the intermediate waveguide with the assistance of the first grating, and thence is coupled into the output waveguide with the assistance of the second grating. The coupler is a directional coupler, in particular a dual grating-assisted directional coupler, and may be used to couple light between an optical fibre and an integrated semiconductor device, or between dissimilar waveguides. |
IP Reference | US2006120667 |
Protection | Patent application published |
Year Protection Granted | 2006 |
Licensed | No |
Impact | 1. An optical coupler comprising an input waveguide, an intermediate waveguide, an output waveguide, a first grating situated between the input and intermediate waveguides, and a second grating situated between the intermediate and output waveguides such that, in use, light propagating in the input waveguide is coupled into the intermediate waveguide wit the assistance of the first grating, and then is coupled into the output waveguide with the assistance of the second grating, wherein the i |