Modeling, Design, Fabrication, and Characterization of Ultra-high Bandwidth 3D Glass Photonic Substrates

Abstract: This paper presents the modeling, design, fabrication, and characterization of ultra-low loss 3D optical waveguides integrated on a glass photonic substrate. A novel, single-step process was developed using moving mask lithography to fabricate a single mode optical waveguide with a built-in turning mirror capable of making 40° or 45° turns for vertical grating couplers or photodetectors, respectively. Planar alignment of the waveguide to fiber interfaces enable passive alignment, contributing to system cost re… Show more

Design and Demonstration of Micro-Mirrors and Lenses for Low Loss and Low Cost Single-Mode Fiber Coupling in 3D Glass Photonic Interposers

Design and Demonstration of Micro-Mirrors and Lenses for Low Loss and Low Cost Single-Mode Fiber Coupling in 3D Glass Photonic Interposers

Co-integration of High-Bandwidth Photonic and Electronic RDL on 2.5D Glass Interposers Using Low Optical Absorption Photoimageable Dielectric Polymer

Co-Design and Demonstration of a Fully Integrated Optical Transceiver Package Featuring Optical, Electrical, and Thermal Interconnects in Glass Substrate