Title :
Low-Cost Interfacing of Fibers to Nanophotonic Waveguides: Design for Fabrication and Assembly Tolerances
Author :
Barwicz, Tymon ; Taira, Yoichi
Author_Institution :
IBM T.J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
The high cost and low scalability of interfacing standard optical fibers to nanophotonic waveguides hinder the deployment of silicon photonics. We propose a mechanically compliant low-cost interface with integrated polymer waveguides. Our concept promises better mechanical reliability than a direct fiber-to-chip coupling and a dramatically larger bandwidth than diffractive couplers. Our computations show a 0.1-dB penalty over a 200-nm bandwidth, whereas typical two-polarization vertical couplers show a ~1-dB penalty over a 30-nm bandwidth. In this paper, we present a comprehensive analysis of the design space using optimization routines to achieve a fabrication- and assembly-tolerant design. We demonstrate the concept feasibility through extensive tolerance analysis with parameter control assumptions derived from low-cost manufacturing.
Keywords :
elemental semiconductors; integrated optics; nanophotonics; optical design techniques; optical fibre couplers; optical fibre fabrication; optical polymers; optimisation; silicon; tolerance analysis; Si; assembly tolerances; assembly-tolerant design; comprehensive analysis; diffractive couplers; fabrication-tolerant design; integrated polymer waveguides; low-cost interfacing; low-cost manufacturing; mechanical reliability; mechanically compliant low-cost interface; nanophotonic waveguides; optical fibers; optimization; parameter control assumptions; silicon photonics; tolerance analysis; two-polarization vertical couplers; Couplers; Fabrication; Indexes; Optical fiber couplers; Polymers; Optoelectronic packaging; optical interconnects; silicon nanophotonics;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2014.2331251
