Engineering Interlayer Biexcitons in Atomically Thin Heterobilayers . This project aims to advance high-temperature superfluidity and quantum photonics by exploring and controlling emerging interlayer

Description

Engineering Interlayer Biexcitons in Atomically Thin Heterobilayers . This project aims to advance high-temperature superfluidity and quantum photonics by exploring and controlling emerging interlayer biexcitons in atomically thin heterobilayers. By revealing the complex many-body interactions and anisotropic dynamics of these dipolar quasiparticles, the research fills critical knowledge gaps and enhances the understanding of interlayer biexcitons. Expected outcomes include highly tunable biexciton behaviour and refined fundamental theories, paving the way for on-demand, flexible quantum light sources and ultra-fast electronics. These breakthroughs unlock new possibilities for next-generation technologies, drive industrial innovation, and expand the frontiers of quantum materials science.. Scheme: Discovery Early Career Researcher Award. Field: 4018 - Nanotechnology. Lead: Dr Xueqian Sun