Title :
Light-emitting diodes with 17% external quantum efficiency at 622 Mb/s for high-bandwidth parallel short-distance optical interconnects
Author :
Windisch, Reiner H. ; Knobloch, Alexander ; Potemans, Jan ; Dutta, Barundeb ; Döhler, Gottfried H. ; Borghs, Gustaaf ; Heremans, Paul L.
Author_Institution :
IMEC, Leuven, Belgium
Abstract :
We report on nonresonant cavity light-emitting diodes (NRC-LED) with large quantum efficiencies and high speed. A maximum quantum efficiency of 31% is measured for a device with an active layer thickness of 120 nm, and 18.7% for a device having an active layer of 30 nm. Further, we report on optical rise and fall times of NRC-LEDs. Even when switched to current levels below 4 mA, at which the external quantum efficiency exceeds 17%, our NRC-LEDs have 10%-90% rise and fall times of less than 2 ns. As a result, eye diagrams taken at this current level at 622 Mb/s are wide open. This demonstrates the suitability of high-efficiency NRC-LEDs for optical interconnects. Finally, from a system´s viewpoint it is important to note that the optical output power of NRC-LEDs decreases by only 0.36%/°C
Keywords :
light emitting diodes; optical interconnections; optical resonators; 120 nm; 18.7 percent; 30 nm; 31 percent; 4 mA; 622 Mbit/s; LED; NRC-LED; active layer thickness; current levels; external quantum efficiency; eye diagrams; high speed; high-bandwidth parallel short-distance optical interconnects; high-efficiency NRC-LED; large quantum efficiencies; light-emitting diodes; maximum quantum efficiency; nonresonant cavity light-emitting diodes; optical interconnects; optical output power; Bandwidth; High speed optical techniques; Light emitting diodes; Light sources; Molecular beam epitaxial growth; Optical arrays; Optical interconnections; Optical scattering; Resonance; Thickness measurement;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.778275
