Research interests

The primary research activities of my group are: the design, characterisation and applications of lasers and semiconductor optical amplifiers for telecommunications; and Terahertz signal generation and waveguiding. A specific example is the DC-biased passively mode-locked lasers. Our lasers do not integrate a saturable absorber and they work at room temperature. Originally our research was concerned with radio-frequency signal generation for all-optical data processing. We were able to demonstrate a linewidth of 30 MHz at a frequency of 40 GHz with no modulation applied. When synchronised we were able to demonstrate a linewidth of only 8Hz for carrier frequency of 40 GHz. More recently, one of our papers in Optics Express 2009 has been selected to be included in Virtual Journal of Ultrafast Science, January 2010. We were the first to demonstrate a 700-fs width pulses with normal dispersion generated by a dc-biased MLLs. Based on the understanding of the origin of the RF signal generated in the MLLs, we have carried out some study on the generation of THz signal. We were the first to demonstrate the generation of THz signal, (APL 2008) Virtual Journal of Ultrafast Science, March 2008.
 I was co-chair of the Photonics Society Winter Topicals Meeting series entitled, Advanced in THz devices and applications, 11-13/01/10. I was a member of the Technical Committee of the European Semiconductor Laser Workshop held in Pavia, Italy, on 24-25 September 2010, and currently a member Technical Committee of the of Photonics Ireland 2011. I was also the Irish representative to EU programme COST288. I am a Marie-Curie fellow for a program of R&D in opto-electronics from Oct. 1997-Sept. 1999. Two of my patents are currently exploited in a commercial company, EblanaPhotonics Ltd., They are the primary technology of their product, a single frequency laser based on slot technology.