Title :
Photopolymer-based diffractive and MMI waveguide couplers
Author :
Mule, Anthony V. ; Villalaz, Ricardo ; Gaylord, Thomas K. ; Meindl, James D.
Author_Institution :
Microelectron. Res. Center, Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
Diffractive and multimode-interference waveguide couplers constructed from photopolymer materials are presented. Two-material grating-in-the-waveguide optical interconnects are fabricated and tested with respect to waveguide propagation loss and grating out-coupling. Waveguide/grating interconnects have been constructed with both index-defined and air-clad waveguide channel regions, where air-clad channels exhibit measured propagation losses of αwg=0.47-3 dB/cm. Measurements of output coupling coefficients of volume grating couplers terminating various waveguide channels range from αg=1.4-5.3 mm-1. A 1 × 4 photopolymer-based multimode-interference power-splitting coupler fabricated and tested for the provision of in-plane optical coupling is found to demonstrate 0.3-0.6-dB output power uniformity.
Keywords :
diffractive optical elements; holographic gratings; light interference; optical couplers; optical fabrication; optical interconnections; optical losses; optical planar waveguides; optical polymers; MMI waveguide couplers; air-clad waveguide channel regions; diffractive waveguide couplers; grating interconnects; grating outcoupling; grating-in-the-waveguide optical interconnects; holographic gratings; index-defined waveguide channel regions; inplane optical coupling; multimode-interference waveguide couplers; optical fabrication; optical planar waveguide couplers; optical testing; output coupling coefficients; output power uniformity; photopolymer; power-splitting coupler; propagation losses; two-material optical interconnects; volume grating couplers; waveguide channels; waveguide interconnects; waveguide propagation loss; Couplers; Gratings; Loss measurement; Optical diffraction; Optical interconnections; Optical materials; Optical waveguides; Propagation losses; Testing; Volume measurement;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2004.835193
