Silicon spin qubits gain traction for large-scale quantum computation and simulation.
TITLE: A Scalable “Spins-Inside” Quantum Processor and Simulator
SPEAKER: Prof Lieven Vandersypen
AFFILIATION: QuTech, Kavli Institute of Nanoscience, Dept of Quantum Nanoscience, Delft University of Technology, Netherlands
HOSTED BY: Dr JP (Juan Pablo) Dehollain, UTS Centre for Quantum Software and Information
ABSTRACT:
Excellent control of over physical 50 qubits has been achieved, but can we also realize 50 fault-tolerant qubits?
Here quantum bits encoded in the spin state of individual electrons in silicon quantum dot arrays have emerged as a highly promising avenue. In this talk, I will present our vision of a large-scale spin-based quantum processor, and our ongoing work to realize this vision. I will also show how the same platform offers a powerful platform for analog quantum simulation of Fermi-Hubbard physics and quantum magnetism.
RELATED ARTICLES:
Physics Today 72(8), 38 (2019)
npj Quantum Information 3, 34 (2017)
Nature 555, 633 (2018)
Science 359, 1123 (2018)
Phys. Rev. X 9, 021011 (2019)
Nature 579, 528 (2020)
Nature 580, 355 (2020)
OTHER LINKS:
Vandersypen Lab: qutech.nl/vandersypen-lab/
Delft University of Technology: https://www.tudelft.nl/
UTS Centre for Quantum Software and Information: https://www.uts.edu.au/research-and-teaching/our-research/centre-quantum-software-and-information
JP Dehollain: https://www.uts.edu.au/staff/juanpablo.dehollain
