19 research outputs found
30% external quantum efficiency from surface textured, thin-film light-emitting diodes
Get PDFThere is a significant gap between the internal efficiency of light-emitting diodes (LEDs) and their external efficiency. The reason for this shortfall is the narrow escape cone for light in high refractive index semiconductors. We have found that by separating thin-film LEDs from their substrates (by epitaxial lift-off, for example), it is much easier for light to escape from the LED structure and thereby avoid absorption. Moreover, by nanotexturing the thin-film surface using "natural lithography," the light ray dynamics becomes chaotic, and the optical phase-space distribution becomes "ergodic," allowing even more of the light to find the escape cone. We have demonstrated 30% external efficiency in GaAs LEDs employing these principles
30% external quantum efficiency from surface textured, thinâfilm lightâemitting diodes
Full text link30% External Quantum Efficiency From Surface Textured, Thin-film Light-emitting-diode Arrays
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Simultaneous multiple wavelength operation of a multistripe array grating integrated cavity laser
Full text linkFast highâefficiency integrated waveguide photodetectors using novel hybrid vertical/butt coupling geometry
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