Litcius/Paper detail

Fiber-Chip Link via Mode Division Multiplexing

Oscar A. Jimenez Gordillo, Asher Novick, Oliver Wang, Anthony Rizzo, Utsav D. Dave, Keren Bergman, Michal Lipson

2023IEEE Photonics Technology Letters18 citationsDOI

Abstract

Applying mode division multiplexing techniques to a fiber-chip link would greatly increase its communication bandwidth. However, its implementation is difficult due to the huge higher-order mode mismatch between multimode-integrated waveguides and optical few-mode fibers (FMF). Here, we present an integrated coupler between the higher-order modes of a silicon waveguide and those of a FMF. Our device is capable of terabit-per-second bandwidth based on the multiplexing of 4 spatial modes. It relies on a multi-stage silicon taper combined with a 3D polymer waveguide, which convert and shape the modes for one-to-one mode coupling to the FMF. We demonstrate an average crosstalk of −7 dB to the closest mode and capability for up to 1.92 Tb/sec data transmission in the L-band via mode and wavelength division multiplexing.

Topics & Concepts

Multi-mode optical fiberMultiplexingTerabitWavelength-division multiplexingBandwidth (computing)ChipOpticsOptical fiberOptical add-drop multiplexerOptoelectronicsMaterials scienceElectronic engineeringComputer scienceOptical performance monitoringPhysicsTelecommunicationsWavelengthEngineeringPhotonic and Optical DevicesOptical Network TechnologiesAdvanced Photonic Communication Systems