The performance of even the simplest element of quantum computers is dramatically impacted by subtle details of device fabrication. How can you solve the critical challenges in device fabrication for quantum devices?
Oxford Instruments, Raith, delmic and Qnami team up to share comprehensive knowledge about the fabrication and characterization of quantum devices in a joint symposium.
Working closely with the quantum community enable us to understand and solve the fabrication challenges for quantum devices. In this joint symposium, we give an overview of how to minimize losses arising from device processing as well as how to control the size of the nanomaterial with nanometre resolution. Check the Agenda below for more details.
This webinar is in collaboration with:
Time (CET) |
Talk Title |
Presenter |
9:30 - 9:40 |
Welcome and introduction |
Jörg Stodolka, Raith GmbH |
9:40 - 10:10 |
Supporting the development of quantum devices with Scanning NV Magnetometry |
Dr Joerg Lenz, Qnami |
10:10 - 10:40 |
Correlative Metrology for Emerging Nanoelectronics with Scanning Nitrogen-Vacancy Magnetometry |
Dr Umberto Celano, Imec |
10:40 – 11:10 |
Nanofabrication for quantum computing |
Michael Kahl, Raith GmbH |
11:10 – 11:40 |
Quantum optics on a chip |
Menno Poot, TU München |
11:40 – 12:40 |
Lunch Break |
|
12:40 – 13:10 |
Cathodoluminescence microscopy for nanoscale optical inspection |
Toon Coenen, delmic |
13:10 – 13:40 |
Investigating exciton-plasmon-photon interactions by cathodoluminescence spectroscopy |
Dr Nahid Talebi, Kiel University |
13:40 – 14:40 |
Superconducting Qubits: Fab to Fridge |
Dr Russ Renzas, Oxford Instruments Plasma Technology |
14:40 - 15:30 |
Q&A Session |