Integrated Quantum Optoelectronics: Pioneering the future of silicon-based quantum technologies

Our Vision 

We aim to revolutionize the field of quantum information processing by leveraging silicon as a platform for quantum photonics. Our focus is on integrating single-photon sources, detectors, and quantum memories into compact, scalable photonic circuits that can be deployed in real-world applications. 

Core research areas 

1. Single-photon sources in silicon 

We explore the potential of recently discovered color centers in silicon, such as the G and C centers for generating single photons at telecommunications wavelengths. These defects provide a promising path toward on-chip quantum light sources, essential for secure quantum communication and photonic quantum computing.

2. Quantum Photonic Integrated Circuits (QPICs) 

Our team aims at developing fully integrated quantum PICs using silicon technology. This includes: 

• Single-photon sources based on deterministic placement of color centers. 

• Waveguide-integrated photodetectors such as Si avalanche photodiodes (APDs) for high-efficiency single-photon detection at the telecommunication wavelength. 

3. Electrically-driven quantum emitters 

We are pioneering the integration of quantum emitters with electrical control to create electrically driven single-photon sources. Our work on PIN diodes with embedded color centers aims to achieve stable, efficient, and scalable quantum light generation at telecom wavelengths. 

4. Advanced photodetectors for classical applications 

We have developed dual-band Te-doped Si photodetectors that can operate in both the visible and telecom ranges. These detectors offer new possibilities for optical sensing applications, including vertical farming, LIDAR and monitoring of industrial processes. 

Applications and market Impact

Our research and technology have the potential to drive innovations in: 

• Quantum Communication: Secure quantum key distribution (QKD) and quantum networks. 

• Quantum Computing: Scalable quantum processors based on photonic qubits. 

• Sensing and Metrology: High-precision optical sensors for medical imaging, environmental monitoring, and industrial applications. 

• Silicon photonics industry: Advancing CMOS-compatible quantum photonic chips for commercial adoption. 

Looking Forward 

Integrated Quantum Optoelectronics is committed to pushing the boundaries of silicon-based quantum technologies. We are actively seeking collaborations, investment, and partnerships to transition our research from the lab to real-world applications. By integrating quantum functionalities into silicon platforms, we pave the way for the widespread adoption of quantum technologies in the coming decade. 

For more information or collaboration opportunities, feel free to reach out to us!