Large Optical Backplane With Embedded Graded-Index Glass Waveguides and Fiber-Flex Termination

Brusberg, Lars; Whalley, Simon; Pitwon, Richard; Faridi, Fahd Rushd; Schröder, Henning

doi:10.1109/jlt.2016.2529651

Cited by 18 publications

(5 citation statements)

References 15 publications

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“…For the development of classical optical waveguides, the different cross sections would result in different transverse optical modes 28 . Thus, various structures and shapes for waveguides were studied and reported recently, such as Y-branching 29 , star type 30 , and ring structure 31 . Therefore, the preparation of silica nanowires with novel structures is now considered as an interesting and meaningful research direction.…”

Section: Introductionmentioning

confidence: 99%

Growth, structure, and luminescence properties of novel silica nanowires and interconnected nanorings

Min

Fang

Liu

et al. 2017

Sci Rep

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Novel silica nanowires and interconnected nanorings were firstly synthesized on a graphite paper by typical thermal catalytic chemical vapor deposition method, using silicon and carbon black powders as raw materials. The field emission scanning electron microscopy, energy dispersive x-ray spectroscopy, Fourier transform infrared spectroscopy, X-ray photoelectron spectroscopy, and transmission electron microscopy were used to investigate the composition and structure characterization, which indicates that the silica nanowires and interconnected nanorings were amorphous. The growth of the as-prepared silica nanowires and interconnected nanorings was related to the vapor-liquid-solid mechanism, but the nanowire-ring structure may be due to the polycentric nucleation and periodic stable growth with gradual direction changes. The room temperature photoluminescence emission spectrum showed that the silica nanostructures emitted strong blue light at 460 nm, resulting from the combination of neutral oxygen vacancy (≡Si-Si≡) and selftrapped excitons. The as-synthesized novel silica nanowires and interconnected nanorings could be a potential candidate for applications in future light-emitting diodes and optoelectronic nanodevices.

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Section: Introductionmentioning

confidence: 99%

Growth, structure, and luminescence properties of novel silica nanowires and interconnected nanorings

Min

Fang

Liu

et al. 2017

Sci Rep

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“…The application dependent build-up features the flexibility and diversity known from PCB manufacturing. Symmetrical approaches with one central layer only have been developed, but also glass panels with two optical layers on bottom and top side, as well as multilayer boards of stacked or large horizontal glass layer design [4,5]. The optical waveguides are required to have low propagation loss and can be designed to operate in both single-or multi-mode regime.…”

Section: Thin Glass Layer Concept For Pcb Integrationmentioning

confidence: 99%

Enabling photonic system integration by applying glass based microelectronic packaging approaches

2022

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Advanced hybrid packaging technologies are used to enhance functionality of glass-based substrates featuring electrical, thermal and optical components including laser diodes, modulators, isolators, photonic integrated circuits, beam-splitters and micro lenses. Such glass-based substrates can be either thin glass layers on large panels containing optical waveguides or more mini-bench-like boards. Optical fiber interconnects, plugs, and electrical-optical integration platforms are used for higher level system integration. We discuss thin glass as a suitable base material for ion exchanged waveguide panels and interposers, precise glass structuring for posts and holders, electrical wiring and the related high precision assembly techniques.

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“…The approach invented by Fraunhofer IZM in 1999 15 to integrate an optical layer into a PCB has since been developed further by numerous research groups. The combination of electrical circuits and optical waveguides in one circuit board enables high-speed signal transmission and a high density of integration.…”

Section: Thin Glass Layer Concept For Electrical-optical Panel Integrationmentioning

confidence: 99%

Hybrid photonic system integration using thin glass platform technology

Schröder

Schwietering

Bottger

et al. 2021

J. Optical Microsystems

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Demand for high integration of optoelectronic and micro-optical components into micro-electronic systems for communication, computing, medical, and sensing applications is increasing. Advanced hybrid packaging technologies are used to enhance glass-based substrates featuring electrical, thermal, and optical functionalities with laser diodes, modulators, isolators, photonic integrated circuits (PIC), beam-splitting components, and micro-lenses. Such glassbased substrates can be thin glass layers on large panels or more mini-bench-like boards that can be embedded into organic printed circuit boards (PCBs). Optical fiber interconnects, connectors, and electrical-optical integration platforms are used for higher level system integration and need to be miniaturized on module and board level to fulfill decreasing channel pitch requirements. We provide background on and discuss thin glass as a suitable base material for ion exchanged waveguide panels and interposers, precise glass structuring for posts and holders, the related high precision assembly techniques, and advanced fiber interconnects. Some examples of PCB photonic integration, micro-bench optical sub-assemblies, including PIC, and 3D optical resonator packages that combine most of these approaches will be shown. © The Authors.Published by SPIE under a Creative Commons Attribution 4.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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Large Optical Backplane With Embedded Graded-Index Glass Waveguides and Fiber-Flex Termination

Cited by 18 publications

References 15 publications

Growth, structure, and luminescence properties of novel silica nanowires and interconnected nanorings

Growth, structure, and luminescence properties of novel silica nanowires and interconnected nanorings

Enabling photonic system integration by applying glass based microelectronic packaging approaches

Hybrid photonic system integration using thin glass platform technology

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