J. McKendry (GB) Institute of Photonics - University of Strathclyde
Institute of Photonics - University of StrathclydeAuthor Of 2 Presentations
(SS ML) Special Symposium on Micro LED
WA2.2 - Micro-LED arrays for spatio-temporally correlated multi-mode operation
Presentation Type
Invited Submission
Authors
- J. Herrnsdorf (GB) University of Strathclyde
- A. Griffiths (GB) Institute of Photonics - University of Strathclyde
- E. Xie (GB) University of Strathclyde
- J. McKendry (GB) Institute of Photonics - University of Strathclyde
- E. Gu (GB) University of Strathclyde
- M. Strain (GB) Institute of Photonics - University of Strathclyde
- M. Dawson (GB) University of Strathclyde
Date
10/02/2019
Time
10:30 AM - 11:30 AM
Room
El Mirador A
Duration
30 Minutes
Lecture Time
11:00 AM - 11:30 AM
Abstract
Abstract
Micro-LEDs are the basis of attractive new forms of high brightness and high resolution displays. We discuss how broader conceptions and convergences with lighting, communications, imaging and sensing are emerging from this rapidly developing technology. (SS ML) Special Symposium on Micro LED
WA3.3 - UNDERWATER WIRELESS OPTICAL COMMUNICATIONS AT 100 MB/S USING INTEGRATED DUAL-COLOR MICRO-LEDS
Presentation Type
Contributed Submission
Authors
- 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
Date
10/02/2019
Time
01:30 PM - 02:45 PM
Room
El Mirador A
Duration
15 Minutes
Lecture Time
02:00 PM - 02:15 PM
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.