1. Narrow-linewidth short-pulse III-V-on-silicon mode-locked lasers based on a linear and ring cavity geometry
- Author
-
Peter Verheyen, Guy Lepage, G-H Duan, Xin Fu, Erwin Bente, Sylwester Latkowski, Francois Lelarge, J Marien, Sarah Uvin, J. Van Campenhout, M. Tassaert, Shahram Keyvaninia, Gunther Roelkens, L. Thomassen, and Photonic Integration
- Subjects
Materials science ,Technology and Engineering ,Silicon ,INSULATOR ,business.industry ,Photonic integrated circuit ,chemistry.chemical_element ,Physics::Optics ,Insulator (electricity) ,Geometry ,Laser ,Atomic and Molecular Physics, and Optics ,law.invention ,Laser linewidth ,Optics ,Mode-locking ,chemistry ,GRATING COUPLERS ,law ,Phase noise ,Optoelectronics ,Physics::Accelerator Physics ,Photonics ,business ,PHOTONICS - Abstract
Picosecond-pulse III-V-on-silicon mode-locked lasers based on linear and ring extended cavity geometries are presented. In passive mode-locked operation a 12 kHz -3dB linewidth of the fundamental RF tone at 4.7 GHz is obtained for the linear cavity geometry and 16 kHz for the ring cavity geometry. Stabilization of the repetition rate of these devices using hybrid mode-locking is also demonstrated.
- Published
- 2015