Current affiliation: University of CambridgeSubject speciality: Electrical EngineeringPrimary location: United Kingdom
Published in:Optical Interconnects XVIPublication date:2016-03-15
Published in:IEEE Antennas and Wireless Propagation LettersPublication date:2011-01-01
Published in:Journal of Lightwave TechnologyPublication date:2015-02-15
Much higher data transmission rates achieved over these polymer waveguides as opposed to the traditional copper based electrical cables.
Published in:2014 The European Conference on Optical Communication (ECOC)Publication date:2014-09-01
Published in:2015 IEEE Optical Interconnects Conference (OI)Publication date:2015-04-01
Fundamental studies to investigate the ultimate capacity of polymer waveguides.
Published in:2015 European Conference on Optical Communication (ECOC)Publication date:2015-09-01
Investigation of the effects of refractive index engineering on the performance of polymer waveguides.
Published in:CLEO: 2015Publication date:2015-01-01
For the first time, advanced modulation format is introduced to on-board optical interconnections in order to further increase the data transmission.
Published in:Asia Communications and Photonics Conference 2015Publication date:2015-01-01
Novel approach to enhance the bandwidth performance of polymer waveguides using restricted launch.
Published in:Journal of Lightwave TechnologyPublication date:2016-06-15
Replacing electrical copper cables on PCBs with the new polymer waveguide technology in order to tackle the interconnection bandwidth bottleneck.
Published in:Optical Fiber Communication ConferencePublication date:2016-01-01
New method of enhancing the bandwidth performance of polymer waveguides.
Published in:IEEE Photonics Technology LettersPublication date:2014-10-15
Comprehensive bandwidth studies on polymer waveguides.
Published in:Conference on Lasers and Electro-OpticsPublication date:2016-01-01
Enhancing the bandwidth performance using refractive index engineering.