IEEE Organizations related to Silicon Photonics

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Xplore Articles related to Silicon Photonics

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A Vision for Thermally Integrated Photonics Systems

Bell Labs Technical Journal, 2014

Thermal management has traditionally been relegated to the last step in the design process. However, with the exponential growth in data traffic leading to ever-greater levels of component integration and ever-higher levels of energy consumption, thermal management is rapidly becoming one of the most critical areas of research within the ICT industry. Given the vast use of optics for efficient ...


Silicon photonics [PDF Not Yet Available In IEEE Xplore]

2008 International Conference on Photonics in Switching, 2008

The document that should appear here is not currently available.


Silicon photonics for on-chip spectrophotometry

2015 IEEE 12th International Conference on Group IV Photonics (GFP), 2015

Silicon and Silicon Nitride photonics arc on their way to open the route towards integrated on-chip spectropholometers, Cost, miniaturization, miniaturization, hut also performance advantages ace at the origin of their potential We will discuss several integrated on-chip spectropholometers that are on the eve of commercial lake up.


Double taper-type mode convertor for direct bonded III-V/SOI hybrid photonic devices

2017 5th International Workshop on Low Temperature Bonding for 3D Integration (LTB-3D), 2017

The double taper-type mode convertor for direct bonded GaInAsP/SOI hybrid photonic devices was proposed and the characteristics of the fabricated structure using plasma activated bonding were measured. The calculated and measured results showed the coupling efficiencies of 90% and 75%, respectively.


Si photonic wavelength tunable laser diode for digital coherent optical communication

2013 18th OptoElectronics and Communications Conference held jointly with 2013 International Conference on Photonics in Switching (OECC/PS), 2013

We fabricated wavelength tunable laser diodes with Si photonic wire waveguide ring resonators as an external optical cavity. Less than 100 kHz narrow spectral linewidth was obtained with small footprint. Our wavelength tunable laser diodes with narrow spectral linewidth are promising light source for practical use in digital coherent optical transmission systems.


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Educational Resources on Silicon Photonics

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IEEE.tv Videos

Silicon Photonics: An IPC Keynote with Michal Lipson
An IEEE IPC Special Session with Alexander Spott of The Optoelectronics Research Group
Highlights from the 2018 IEEE Photonics Conference
Ultrafast Photonics Time Frequency Signal Processing Using Integrated Photonics: An IPC Keynote with Andrew M. Weiner
IEEE Photonics Conference 2017 Recap
Electrically-Pumped 1.31 μm MQW Lasers by Direct Epitaxy on Wafer-Bonded InP-on-SOI Substrate - Yingtao Hu - Closing Ceremony, IPC 2018
How to Build a Superconducting Opto-Electronic Neuromorphic Computer - Sonia Buckley - ICRC 2018
Intro to Women in Photonics - 2016 IEEE Photonics Conference
Women in Photonics Workshop Introduction - 2016 IEEE Photonics Conference
Heterogeneous Photonic Packaging - John Osenbach - IPC 2018
Integrated Photonics Manufacturing Initiative - Michael Liehr Plenary from the 2016 IEEE Photonics Conference
Light Our Future - IEEE Photonics Society
Young Professionals in Photonics - 2016 IEEE Photonics Conference
Life at a Photonics Startup - 2016 IEEE Photonics Conference
Semiconductor Laser Development at Hisense Photonics - Yanfeng Lao - IPC 2018
From the Quantum Moore's Law toward Silicon Based Universal Quantum Computing - IEEE Rebooting Computing 2017
Design of Monolithic Silicon-Based Envelope-Tracking Power Amplifiers for Broadband Wireless Applications
Silicon THz: an Opportunity for Innovation
Silicon Labs' Thunderboard Sense (SLTB001A): Mouser Engineering Bench Talk
4 Decades of Growth in Photonics - Fred Leonberger - IPC 2018

IEEE-USA E-Books

  • A Vision for Thermally Integrated Photonics Systems

    Thermal management has traditionally been relegated to the last step in the design process. However, with the exponential growth in data traffic leading to ever-greater levels of component integration and ever-higher levels of energy consumption, thermal management is rapidly becoming one of the most critical areas of research within the ICT industry. Given the vast use of optics for efficient transmission of high-speed data, this paper focuses on a new thermal solution for cooling the components within pluggable optical modules. Thermally Integrated Photonics Systems (TIPS) represents a new vision for the thermal building blocks required to enable exponential traffic growth in the global telecommunications network. In the TIPS program, existing thermal solutions cannot scale to meet the needs of exponential growth in data traffic. The main barriers to enabling further growth were identified and a research roadmap was developed around a scalable and efficient integrated thermal solution. In particular, the effects of replacing inefficient materials and large macroTECs with better thermal spreaders and μTECs are investidated. In addition, new forms of μChannel cooling into the package to more efficiently remove the heat generated by the lasers and the TECs are being studied which can lead to future photonic devices that can be deployed in a vastly more dense and integrated manner to address the requirements of future telecommunication networks.

  • Silicon photonics [PDF Not Yet Available In IEEE Xplore]

    The document that should appear here is not currently available.

  • Silicon photonics for on-chip spectrophotometry

    Silicon and Silicon Nitride photonics arc on their way to open the route towards integrated on-chip spectropholometers, Cost, miniaturization, miniaturization, hut also performance advantages ace at the origin of their potential We will discuss several integrated on-chip spectropholometers that are on the eve of commercial lake up.

  • Double taper-type mode convertor for direct bonded III-V/SOI hybrid photonic devices

    The double taper-type mode convertor for direct bonded GaInAsP/SOI hybrid photonic devices was proposed and the characteristics of the fabricated structure using plasma activated bonding were measured. The calculated and measured results showed the coupling efficiencies of 90% and 75%, respectively.

  • Si photonic wavelength tunable laser diode for digital coherent optical communication

    We fabricated wavelength tunable laser diodes with Si photonic wire waveguide ring resonators as an external optical cavity. Less than 100 kHz narrow spectral linewidth was obtained with small footprint. Our wavelength tunable laser diodes with narrow spectral linewidth are promising light source for practical use in digital coherent optical transmission systems.

  • Wavelength locking of a WDM silicon microring demultiplexer using dithering signals

    A control system utilizing dithering signals is used to demonstrate wavelength locking of WDM channels by a microring filter array. Data measurements verify that the dithering mechanism has a near-negligible effect on filtered data channels.

  • 32 GHz germanium bipolar phototransistors on silicon photonics

    We present designs and simulations for a 32 GHz fT 3-terminal germanium bipolar phototransitor for high-sensitivity 10 GB/s receiving. We also experimentally demonstrate a preliminary, non-optimized phototransistor with 14 GHz fT built on silicon photonics.

  • A path to 300 mm hybrid silicon photonic integrated circuits

    We describe recent advances in hybrid silicon components and photonic integrated circuits. We present a path towards scalable, ultralow cost photonic integrated circuits (PICs) on 300 mm silicon substrates.

  • Integrated photonics in future multicore computing

    Integrated silicon photonics represents one of the more promising solutions to overcome the challenge of worsening on-chip communication performance in emerging multicore platforms. This paper highlights recent innovations in architectures, protocols, and techniques to enhance performance, dependability, and power-efficiency for integrated photonics.

  • Silicon photonic wafer fabrication for education

    Silicon Photonics is a promising new technology for realizing efficient, high performance interconnects. There is a growing need for educating future engineers on how to design, fabricate, test and package Silicon photonic circuits. Here we demonstrate a Silicon photonic process suitable for an educational institution with i-line lithography capabilities. We have developed a suitable process for realizing passive photonic devices (i.e. waveguides, interferometric structures and fiber-chip grating couplers). The process is realized in a CMOS compatible environment which has been in use since 1986 to teach microelectronic engineering. And is now also being used to support the AIM Photonics Academy education mission. Specifically, an array of TM-polarized grating couplers with a ring resonator was fabricated with a lithographic resolution of 0.325 µm on an SOI wafer. The setup time and run time required was 3 days in comparison to the long wait time in the industry. Optimization of the resolution using ARC i-CON-7, diluted OiR 620 and the etch selectivity of the Silicon to the 1:1 OiR 620:PGMEA was key to the student run fabrication process and is supported by the Optical microscope and SEM results.



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