Superconducting nanobridge readout for single photon detector arrays: multiplexing, integration
Lead Participant:
NPL MANAGEMENT LIMITED
Abstract
This project forms part of a larger scheme of work to develop nanobridge superconducting circuits for high
bandwidth, low noise signal processing of signals from superconducting single photon detector arrays for
commercialisation. These arrays coupled with the high speed electronics developed in this work will impact key
quantum technology areas such as quantum computing and quantum key distribution. This extension project
focuses on understanding and demonstrating the solution to the key technical challenges of multiplexing,
device integration and device uniformity.
bandwidth, low noise signal processing of signals from superconducting single photon detector arrays for
commercialisation. These arrays coupled with the high speed electronics developed in this work will impact key
quantum technology areas such as quantum computing and quantum key distribution. This extension project
focuses on understanding and demonstrating the solution to the key technical challenges of multiplexing,
device integration and device uniformity.
Lead Participant | Project Cost | Grant Offer |
|---|---|---|
| NPL MANAGEMENT LIMITED | £83,593 | £ 41,797 |
Participant |
||
| UNIVERSITY OF GLASGOW | £36,936 | £ 36,936 |
| UNIVERSITY COLLEGE LONDON | ||
| UNIVERSITY OF GLASGOW | ||
| UNIVERSITY COLLEGE LONDON | £49,758 | £ 49,758 |
People |
ORCID iD |
| Jane Ireland (Project Manager) |