The authors present highly efficient low-power surface-textured light-emitting diodes (LEDs) designed for optical communication at bit rates up to 1.3Gbit/s. LEDs with an external quantum efficiency > 30% are demonstrated to perform at bit rates of 1Gbit/s. The application of spherical glass micro-lenses improves the angular light output for enhanced coupling into optical fibres
Windisch, R, Rooman, C, Kuijk, M, Dutta, B, Dohler, G, Borghs, G & Heremans, P 2000, 'Micro-lensed gigabit-per-second high-efficiency quantum-well right-emitting diodes', Electronics Letters, vol. 36, no. 4, pp. 351-352.
Windisch, R., Rooman, C., Kuijk, M., Dutta, B., Dohler, G., Borghs, G., & Heremans, P. (2000). Micro-lensed gigabit-per-second high-efficiency quantum-well right-emitting diodes. Electronics Letters, 36(4), 351-352.
@article{30acd8f01c2445b3931b4d87c40e23ce,
title = "Micro-lensed gigabit-per-second high-efficiency quantum-well right-emitting diodes",
abstract = "The authors present highly efficient low-power surface-textured light-emitting diodes (LEDs) designed for optical communication at bit rates up to 1.3Gbit/s. LEDs with an external quantum efficiency > 30% are demonstrated to perform at bit rates of 1Gbit/s. The application of spherical glass micro-lenses improves the angular light output for enhanced coupling into optical fibres",
keywords = "surface-tectured, LEDs, optical communication",
author = "Reiner Windisch and Cathleen Rooman and Maarten Kuijk and Barun Dutta and Godfried Dohler and Gustaaf Borghs and P. Heremans",
year = "2000",
month = feb,
day = "17",
language = "English",
volume = "36",
pages = "351--352",
journal = "Electronics Letters",
issn = "0013-5194",
publisher = "Institution of Engineering and Technology",
number = "4",
}