Entangled photonic states are a scalable and efficient resource for many applications
Constructing all-photonic quantum repeaters, allowing secure quantum communication over long distances, paving the way for a scalable quantum internet
Achieving high-precision sensing, suitable for applications such as biological sensing, gravimetry, and magnetometry.
Implementing measurement-based and fusion-based quantum computing, pushing computational boundaries beyond classical capabilities.
We develop near-deterministic sources of entangled photonic states
Enables large-scale production of entangled photons on demand
Can operate at telecom wavelengths, ensuring compatibility with existing infrastructure
Allows seamless integration with photonic chips for compact and robust designs
CSO and co-founder Hoi-Kwong Lo, professor at the University of Toronto, is a pioneer in the field, with significant contributions to Quantum Key Distribution and Quantum Repeater Technologies
Our team is composed of MSc. and PhD. holders with deep expertise in quantum optics and photonic systems
Collaborations with NRC Canada provide access to state-of-the-art quantum dot research facilities and expertise in Quantum Technologies
