Novel techniques for waveguide and Bragg Grating inscription in Silica on Silicon platform have led to robust photonic integrated sensors for a range of chemical measurands. Exploitation of novel optical platforms such as the "Flat Fibre" platform has lead to the demonstration of waveguide components (ring and disk resonators, Mach Zehnder Interferometers, Bragg gratings etc) combined with the functionality of inscribed microfluidic channels has demonstrated the potential for the development of lab on chip devices for a variety of applications, like point of care diagnostics.

 

Key publications

Journal of Sensors, 2009, 60764

Sensors and Actuators B. Chemical 2015, 209 Proc. SPIE, 2014, 8982, 89820G

 

It has been proven theoretically that Quantum Computers can be implemented by combining and  using classical optical gates and optical components, like, beam splitters, phase shifters, single photon sources and single photon detectors. Such Linear Optics Quantum Computers (LOQC) could be implemented by integrated photonics.  In the frame of the project InPhoQuC the group is working towards the development of such quantum devices by the robust and highly controllable classical-in-nature integrated optical circuits based on Silica-on-Silicon material systems, which is the major integration platform compatible for interconnection with conventional optical fibers' telecommunications infrastructure. Laser direct writing and micro-machining technology by infrared femtosecond laser and CW Ultraviolet Lasers are employing for the inscription of multifunctional waveguide structures and circuits. Integration of Nanowire Quantum Dots will enable multiple quantum emitting functionality in hybrid circuits.

 

• Planar Bragg grating sensors—fabrication and applications: A review  
  Journal of Sensors, 2009, 60764
• Flat fibre and femtosecond laser technology as a novel photonic integration platform for optofluidic based biosensing devices and lab-on-chip applications: current results and future perspectives 
  Sensors and Actuators B. Chemical", 2015, 209
• Flexible glass flat-fibre chips and femtosecond laser inscription as enabling technologies for photonic devices   
  Proc. SPIE, 2014, 8982, 89820G
• Femtosecond laser inscription and micromachining in novel flexible glass flat-fibre chips
  SPIE 8924, 2013, 89240Z-89240Z-4

• Fiber and integrated waveguide-based optical sensors  
  Journal of Sensors 2009, 171748
• Design considerations of optical add-drop filters based on grating assisted mode conversion in null couplers 
  Journal of Lightwave Technology 2001, 19, 92
•  Novel full-cycle-coupler-based optical add/drop multiplexer and performance characteristics at 40Gbit/s WDM networks   
  Journal of Lightwave Technology 2003, 21, 1828
• Computational intelligence in photonics technology and optical networks: A survey and future perspectives  
  Information Sciences 2007, 177, 5292  
• Design and demonstration of direct UV-written small angle X-Couplers in silica-on-silicon for broadband operation   
  Appl. Opt. 2006, 45, 6113
• Development of channel waveguide lasers in Nd3+-doped chalcogenide (Ga:La:S) glass through photoinduced material modification  
  Applied Physics Letters, 2002, 81, 3708
• Direct ultraviolet writing of channel waveguides in congruent lithium niobate single crystals 
   Optics Letters, 2003, 28, 1433
• UV Written waveguides using crosslinkable PMMA-based copolymers
  Optical Materials, 2003, 23, 583