The Silicon Quantum Electronics Workshop focuses on silicon-based approaches to realizing quantum electronics circuitry such as quantum computers.
The purpose of the workshop is to unite the leading researchers, students, and postdocs in the field to discuss advances in silicon quantum device fabrication, measurement, modeling, and theory.
Silicon Quantum Electronics Workshop was a great success! Thank you.
More pictures of the workshop can be found here
Topics of interest include:
1. Silicon-related qubit implementations (e.g., Si, SiGe, Ge)
2. Advances in materials and fabrication
3. Cryogenic classical (nano)-electronics and classical electronic interfaces with qubits
4. Computer assisted design and analysis of donor and quantum dot architectures
5. Theory and modeling of charge and spin decoherence mechanisms in silicon
6. Dynamic decoupling and other control techniques to suppress decoherence in Si related qubits
7. Approaches to multi-qubit and coherent on-chip communication
8. Hybrid-qubit approaches combining Si and/or SiGe with other qubit systems
This year’s workshop will be held in Delft, the Netherlands. The workshop format will consist of approximately 20-30 minute talks, with a poster session held each day. We do welcome post-deadline abstracts for posters.
Registration is closed
May 15th, 2016 – Early registration deadline
International Advisory Committee
Michelle Simmons, University of New South Wales, Australia
Sven Rogge, University of New South Wales, Australia
Lieven Vandersypen, QuTech/TU Delft
Mark Eriksson, University of Wisconsin-Madison, USA
Malcolm Carroll, Sandia National Laboratories, USA
Thomas Tarman, Sandia National Laboratories, USA
Steve Lyon, Princeton University, USA
Mark Gyure, HRL Laboratories, USA
Marc Sanquer, CEA-Grenoble, France
Kohei Itoh, Keio University, Japan