Title :
Mushroom microlenses: optimized microlenses by reflow of multiple layers of photoresist
Author :
Heremans, P. ; Genoe, J. ; Kujik, M. ; Vounckx, R. ; Borghs, G.
Author_Institution :
IMEC, Leuven, Belgium
Abstract :
A novel type of photoresist microlenses is conceived. The characteristic of these lenses is their mushroom shape: the lens dome is located at a certain controllable distance from the substrate, and the curvature of the lens is larger than that of traditional truncated-sphere lenses. These mushroom microlenses are equilibrium-state, stable products of reflow that are obtained when starting from a multilayer photoresist stack. Integration on light-emitting diodes results in enhanced output efficiency and directivity: a vertical-to-surface emission enhancement of up to a factor of 8 has been achieved.
Keywords :
integrated optics; lenses; light emitting diodes; optical fabrication; photoresists; directivity; equilibrium-state stable products; integration; lens curvature; lens dome; light-emitting diodes; multilayer photoresist stack; multiple photoresist layer reflow; mushroom microlenses; output efficiency; photoresist microlenses; vertical-to-surface emission enhancement; Glass; Lenses; Light emitting diodes; Microoptics; Optical devices; Resists; Semiconductor devices; Shape control; Substrates; Temperature;
Journal_Title :
Photonics Technology Letters, IEEE
