Space-time-varying superconducting surfaces for next-generation quantum computers

We're advancing the frontiers of active metasurfaces and metamaterials, exploring the theoretical and practical implications of space-time-varying superconducting surfaces and their applications in wave manipulation in quantum processors and computers.

This innovative approach not only promises to revolutionize next-gen superconducting quantum computers but also actively engages potential industrial partners for real-world applications.

You'll contribute to our groundbreaking project on "Space-Time-Varying Superconducting Surfaces for Next-Gen Quantum Processing," led by Dr. Taravati. Dr. Taravati has experience in electromagnetics for superconducting quantum computing with the Superconducting Quantum Computing group at the University of Oxford and expertise in metasurface-based wave processors with the Metawaves group at the University of Toronto. 

Additionally, he has successfully established a spinout company in Canada specializing in active metasurfaces for advanced wave processing in telecommunication systems.

Your role will involve theoretical research, computational modeling, and experimental investigations, ensuring that your work directly contributes to both academic excellence and quantum enterprise efforts.

This project has an enterprise focus, and benefits from:

• cutting-edge research with industrial partnerships
• space-time modulation and quantum commercialization
• real-world applications
• collaborative research
• modern facilities

Southampton fosters collaborative research, including partnerships with industry leaders. These connections offer unique opportunities for industry placements, international collaborations, and enterprise engagement, enriching your academic journey while actively contributing to quantum enterprise efforts.