Laser & Photonics Reviews 2017-07-07

Novel Light Source Integration Approaches for Silicon Photonics

Zhechao Wang, Amin Abbasi, Utsav Dave, Andreas Groote, Sulakshna Kumari, Bernadette Kunert, Clement Merckling, Marianna Pantouvaki, Yuting Shi, Bin Tian, Kasper Gasse, Jochem Verbist, Ruijun Wang, Weiqiang Xie, Jing Zhang, Yunpeng Zhu, Johan Bauwelinck, Xin Yin, Zeger Hens, Joris Campenhout, Bart Kuyken, Roel Baets, Geert Morthier, Dries Thourhout, Gunther Roelkens

Index: 10.1002/lpor.201700063

Full Text: HTML

Abstract

10.1002/lpor.201700063 picture

Silicon does not emit light efficiently, therefore the integration of other light-emitting materials is highly demanded for silicon photonic integrated circuits. A number of integration approaches have been extensively explored in the past decade. Here, the most recent progress in this field is reviewed, covering the integration approaches of III-V-to-silicon bonding, transfer printing, epitaxial growth and the use of colloidal quantum dots. The basic approaches to create waveguide-coupled on-chip light sources for different application scenarios are discussed, both for silicon and silicon nitride based waveguides. A selection of recent representative device demonstrations is presented, including high speed DFB lasers, ultra-dense comb lasers, short (850nm) and long (2.3μm) wavelength lasers, wide-band LEDs, monolithic O-band lasers and micro-disk lasers operating in the visible. The challenges and opportunities of these approaches are discussed.