Title :
Fully Flexible Optoelectronic Foil
Author :
Bosman, Erwin ; Van Steenberge, Geert ; Milenkov, Ivaylo ; Panajotov, Krassimir ; Thienpont, Hugo ; Bauwelinck, Johan ; Van Daele, Peter
Author_Institution :
Centre for Microsyst. Technol. Microsyst., Ghent Univ./Interuniversity Micro-Electron. Center, Ghent, Belgium
Abstract :
In this paper, we present a process to embed commercially available optical material layers into a flexible foil. Patterning of the embedded layers results in highly transparent low-loss flexible waveguides. Bending of the foil down to a bending radius of 5 mm causes no additional optical propagation losses. Vertical cavity surface emitting laser´s and photodiodes are thinned down to 20 m and are embedded inside the cladding layer of the waveguides. They are optically coupled with the use of embedded micromirror plugs. The result is a thin foil of 150 m thickness with embedded active optical low-loss links. The presented links show an average total optical loss of 6.4 dB and a clear open-eye diagram at 1.2 Gb/s. The foil characteristics do not change after humidity and temperature cycling.
Keywords :
foils; integrated optoelectronics; optical interconnections; optical waveguides; photodiodes; surface emitting lasers; flexible optoelectronic foil; optical interconnect; optical material layers; photodiodes; transparent low-loss flexible waveguides; vertical cavity surface emitting laser; Optical losses; Optical materials; Optical propagation; Optical surface waves; Optical waveguides; Propagation losses; Surface emitting lasers; Surface waves; Vertical cavity surface emitting lasers; Waveguide lasers; Embedding; flexible; optical interconnect; reliability; thinning; waveguide;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2009.2039466
