Our group develop fully integrated photonic circuits which can be applied in parallel for classical and quantum applications, and novel nanofabrication techniques for hybrid optoelectronic platforms and integrating unconventional materials.
- Our platforms will primarily focus on silicon, silicon nitride (SiN) and lithium niobate (LN)
- Theoretical and experimental exploration of nonlinear interaction to generate, control and route light on chip via optical, electrical and mechanical waves (Kerr, Pockel’s and acousto-optic effects)
- Applications include optical frequency comb-based sensing, metrology and communications, photonic neutral network and quantum information processing
More details about our research is available in the links below: