Title :
Self-Aligned Single-Mode Polymer Waveguide Interconnections for Efficient Chip-to-Chip Optical Coupling
Author :
Deng, Kung-Li ; Gorczyca, Thomas ; Lee, Boon K. ; Xia, Hua ; Guida, Renato ; Karras, Thomas
Author_Institution :
GE Global Res. Center, Niskayuna, NY
Abstract :
Single-mode (SM) ultrashort optical interconnections between the fibers and waveguides using self-forming polymeric waveguides with low optical losses at 1300 and 1550 nm were demonstrated. The localized refractive index in the SM regime is estimated by measuring the surface topography induced by monomer diffusion during the waveguide formation. A loss less than -1 dB can be obtained from self-aligning SM-to-multimode (MM) fibers and SM-to-SM fibers interconnections, respectively. A self-formed waveguide-to-fiber interconnection is fabricated and measured with loss less than 0.2 dB at 1550 nm. The polymer waveguide relaxes the positioning requirements for single-mode chip-to-chip optical interconnections, showing great potential to improve the short-term yield and long-term reliability
Keywords :
diffusion; high-speed optical techniques; integrated optics; integrated optoelectronics; optical fibre couplers; optical interconnections; optical losses; optical polymers; optical waveguides; refractive index; reliability; surface topography; 1300 nm; 1550 nm; chip-to-chip optical coupling; chip-to-chip optical interconnections; localized refractive index; long-term reliability; monomer diffusion; optical fibers; optical losses; polymer waveguide interconnections; positioning requirements; self-aligned interconnections; self-forming polymeric waveguides; short-term yield; single-mode interconnections; single-mode-to-multimode fibers; single-mode-to-single-mode fibers; surface topography; ultrashort optical interconnections; waveguide formation; waveguide-to-fiber interconnection; Optical coupling; Optical fiber losses; Optical interconnections; Optical polymers; Optical refraction; Optical variables control; Optical waveguides; Refractive index; Samarium; Semiconductor device measurement; Chip-to-chip interconnection; optical coupling; optical loss; photosensitive material; self-written polymeric waveguide;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2006.882618
