M. Dawson (GB) Institute of Photonics - University of Strathclyde
Institute of Photonics - University of StrathclydeAuthor Of 3 Presentations
ThA1.3 - MICROLED WAVEGUIDE FOR FLUORESCENCE APPLICATIONS
Abstract
Abstract
A microLED-coupled multimode slab waveguide is reported for fluorescence sensing. The device consists of a 1-dimensional micro-LED array coupled to a sub-mm polymeric slab for evanescent excitation of fluorescent analytes present on the surface. Proof-principle detection of semiconductor nanocrystals down to 0.2 pM/cm2 is demonstrated.
ThH1.2 - TOWARDS USING LED ARRAYS FOR RELATIVE ALIGNMENT OF CUBE SATELLITE CLUSTERS
- J. Herrnsdorf (GB) University of Strathclyde
- A. Griffiths (GB) Institute of Photonics - University of Strathclyde
- C. Lowe (GB) University of Strathclyde
- M. Macdonald (GB) University of Strathclyde
- M. Strain (GB) Institute of Photonics - University of Strathclyde
- M. Dawson (GB) Institute of Photonics - University of Strathclyde
Abstract
Abstract
A structured illumination system based on microscale light-emitting diode arrays provides a low size, mass and power approach to monitor the relative angular alignment of nano-satellites operating in cluster configuration.
WA3.3 - UNDERWATER WIRELESS OPTICAL COMMUNICATIONS AT 100 MB/S USING INTEGRATED DUAL-COLOR MICRO-LEDS
- G. Arvanitakis (GB) University of Strathclyde
- J. Carreira (GB) Institute of Photonics - University of Strathclyde
- A. Griffiths (GB) Institute of Photonics - University of Strathclyde
- J. McKendry (GB) Institute of Photonics - University of Strathclyde
- E. Xie (GB) Institute of Photonics - University of Strathclyde
- J. Kosman (GB) Joint Research Institute for Integrated Systems - University of Edinburgh
- R. Henderson (GB) Joint Research Institute for Integrated Systems - University of Edinburgh
- E. Gu (GB) Institute of Photonics - University of Strathclyde
- M. Dawson (GB) Institute of Photonics - University of Strathclyde
Abstract
Abstract
Integrated blue-violet and blue-green micro-LED arrays, fabricated via a transfer printing method, were employed to demonstrate wavelength division multiplexing underwater data transmission at 100 Mb/s over up to 9 attenuation lengths in a 1.5 m long water tank.