- Full text PDF available (0)
- This year (1)
- Last 5 years (13)
- Last 10 years (25)
Journals and Conferences
Recently Silicon Photonics has generated an outstanding interest for integrated optical communications. In this paper we describe a 300mm Silicon Photonics platform designed for 25Gb/s and above… (More)
We have developed a silicon photonics platform that allows monolithic integration with electronic circuits in a CMOS-compatible process. In this platform, vertical couplers are found to be a superior… (More)
In this contribution the CMOS photonics technology (LuxG) developed and commercialized by Luxtera is reviewed. The advantages of integration and usage of a standard CMOS foundry… (More)
This paper covers a silicon photonics technology platform that leverages a commercial semiconductor supply chain for the manufacturing of high performance optical transceivers for high performance… (More)
We demonstrate monolithically integrated 4×10 Gb/s WDM transceivers built in a production 130 nm SOI CMOS process. Only light sources are external to the chip. 40 Gb/s error-free, bidirectional… (More)
We have demonstrated a CMOS Optoelectronic technology platform, using a 650mW 4×10-Gb/s 0.13 μm silicon-on-insulator integrated transceiver chip, co-packaged with an externally modulated laser, to… (More)
We discuss key design elements that enable highspeed optical transceivers based on Luxtera's hybrid integrated silicon photonics platform.
We review a technology platform that enables monolithic integration of optical and electronic circuits in a mainstream CMOS process and demonstrate a grating coupler with 0.75 dB insertion loss.
The advantages of CMOS photonics for next generation transceiver applications are outlined in terms of raw bandwidth, channel capacity, reach, power, cost, link performance and reliability. The… (More)
We report on Luxtera's technology platform, focusing on photonic device library development. As examples, we present approaches to design low-loss polarization-splitting grating couplers, high-speed… (More)