Research

Nanotechnology Integration

We perform world class research on integrated photonics spanning design, fabrication and testing.  Our research includes the development of a generic integration platform and high-performance photonic devices for applications in data communication, optical interconnect and sensing.


Integrated photonics infrastructure

Integrated photonics infrastructure


Heterogeneous III-V on silicon integration platform for system-on-chip:

Our work on heterogeneously integrated III-V optoelectronic devices on silicon photonic circuits through wafer bonding can enable photonic system-on-chip technology on a full wafer-scale. The bonding technologies include direct wafer bonding, dielectric interlayer bonding and BCB bonding. The team has also developed a new heterogeneous Si/III-V integration structure with an ultra-compact optical vertical interconnects access (VIA) between the III-V layer and the silicon-on-insulator (SOI) waveguide layer. We are amongst the few groups in the world that successfully demonstrated electrically pumped III-V laser integrated on a passive SOI waveguide circuit.

Following this success, the team is currently working towards the applications in transceivers (>40GHz), mid -IR sensing and LIDAR.

Heterogeneous Si/III-V integration structure with an ultra-compact optical vertical interconnects access (VIA) between the III-V layer and the silicon-on-insulator (SOI) waveguide layerElectrically pumped III-V laser integrated on a passive SOI waveguide circuit

 

For a list of our recent Publications and Highlights, click here.

Department Head: Dr Arseniy Kuznetsov

For more information, please contact Dr Arseniy Kuznetsov (Arseniy_Kuznetsov@imre.a-star.edu.sg

 

Last update : 6/25/2018 5:34:57 PM