Abstract Electrically pumped lasers that can be made on sili-con and integrated with other components are important in order to take full advantage of the capabilities of silicon photonics. In this paper we review two specific types of hybrid silicon evanes-cent lasers that can fulfill these requirements. We discuss recent results of distributed feedback (DFB) lasers and mode locked lasers made on silicon using evanescent coupling to thin films of III-V material. Device designs and test results are discussed in detail. An integrated 1 Tb/s silicon based transmitter using 25 WDM channels each with a 40 Gb/s signal. © 2009 by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Mode locked and distributed feedback silicon evanescent laser
We report a novel laser architecture, the silicon evanescent laser (SEL), that utilizes a silicon wa...
We demonstrate an electrically pumped silicon evanescent laser incorporating AlGaInAs quantum wells ...
The use of III-V based quantum wells bonded to silicon waveguides to form electrically pumped, hybri...
International audienceWith an ever-growing transmission data rate, electronic components reach a lim...
Abstract: We report an electrically pumped distributed feedback silicon evanescent laser. The laser...
New integrated photonic integrated circuit (PIC) platforms that combine the best of silicon and III-...
We present the first experimental demonstration of a novel III-V-on-silicon distributed feedback las...
A four-wavelength silicon hybrid laser array operating at room temperature is realized by evanescent...
A four-wavelength silicon hybrid laser array operating at room temperature is realized by evanescent...
An electrically pumped 1310 nm silicon evanescent laser (SEL) is demonstrated utilizing the hybrid s...
Abstract—The silicon evanescent device platform provides elec-trically pumped active device function...
A number of important breakthroughs in the past decade have focused attention on Si as a photonic pl...
Abstract Silicon evanescent lasers and amplifiers have been demonstrated utilizing low temperature w...
The optical properties of silicon materials have been recognized in recently years, and their applic...
A hybrid evanescently coupled III-V/silicon distributed-feedback laser with an integrated monitor ph...
We report a novel laser architecture, the silicon evanescent laser (SEL), that utilizes a silicon wa...
We demonstrate an electrically pumped silicon evanescent laser incorporating AlGaInAs quantum wells ...
The use of III-V based quantum wells bonded to silicon waveguides to form electrically pumped, hybri...
International audienceWith an ever-growing transmission data rate, electronic components reach a lim...
Abstract: We report an electrically pumped distributed feedback silicon evanescent laser. The laser...
New integrated photonic integrated circuit (PIC) platforms that combine the best of silicon and III-...
We present the first experimental demonstration of a novel III-V-on-silicon distributed feedback las...
A four-wavelength silicon hybrid laser array operating at room temperature is realized by evanescent...
A four-wavelength silicon hybrid laser array operating at room temperature is realized by evanescent...
An electrically pumped 1310 nm silicon evanescent laser (SEL) is demonstrated utilizing the hybrid s...
Abstract—The silicon evanescent device platform provides elec-trically pumped active device function...
A number of important breakthroughs in the past decade have focused attention on Si as a photonic pl...
Abstract Silicon evanescent lasers and amplifiers have been demonstrated utilizing low temperature w...
The optical properties of silicon materials have been recognized in recently years, and their applic...
A hybrid evanescently coupled III-V/silicon distributed-feedback laser with an integrated monitor ph...
We report a novel laser architecture, the silicon evanescent laser (SEL), that utilizes a silicon wa...
We demonstrate an electrically pumped silicon evanescent laser incorporating AlGaInAs quantum wells ...
The use of III-V based quantum wells bonded to silicon waveguides to form electrically pumped, hybri...