QuTech, Delft University of Technology
Tim is a group leader at QuTech and the Division Research Lead for the quantum internet division. His group aims to realize quantum networks for modular quantum computation and for investigating the fundamentals of quantum information. Tim’s research uses color centers in solids to create small spin-based quantum processors that can be connected together through photonic interconnects. With these unique quantum systems, the group aims to lay the foundation for new technologies and to investigate fundamental questions about the protection of coherence in complex quantum systems. For his work, Tim was awarded the Fresnel prize for fundamental contributions to quantum optics and electronics.
A modular approach towards scalable quantum computers
A promising approach to large-scale quantum systems is to connect many small quantum processor modules together through optical interconnects. In this talk, I will discuss the path towards such modular quantum computers using spin qubits based on solid-state color centers. In addition, I will show the recent progress in my group towards this goal, with a focus on the required high-fidelity control of multiple qubits inside the modules.
Date
25 January 2024
From 9am to 6:30pm (CET)
Location
DOB Academy
Raam 180
2611 WP Delft
The Netherlands
Event highlights
Discover Fujitsu’s latest multi-layered computing achievements to drive quantum forward across:
Gain insights into Fujitsu’s various R&D collaborations with world-leading partners – diamond spin, superconducting, error collection, quantum simulator, and applications
Find out about Fujitsu’s technology and research – via poster presentations and technology demos
Network and explore Quantum Collaboration initiatives to identify early applications.