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Active HORIZON European Commission

JOSEPHSON GATED TRANSISTORS AND ELECTRONICS

€4M EUR

Funder European Commission
Recipient Organization Teknologian Tutkimuskeskus Vtt Oy
Country Finland
Start Date Dec 01, 2023
End Date Nov 30, 2027
Duration 1,460 days
Number of Grantees 5
Roles Participant; Coordinator
Data Source European Commission
Grant ID 101135240
Grant Description

Improving the energy efficiency of densely-integrated electronic is an important goal towards the sustainability of modern digitally-connected society, in particular for what concerns high-performance computing datacenters.

An important piece of the solution is found in the contacts between metallic leads and the semiconducting channels that constitute the core of transistors, the key active component in integrated circuits.

A significant part of increasing the energy efficiency is tied to managing the resistance that appears between metals and semiconductors: the contact resistance.

In JOGATE we utilise the unique superconducting properties in hybrid superconductor-semiconductor components to uncover the mechanisms contributing to the contact resistance and thereby improve it.

In doing so, not only we contribute to solving a major obstacle for the energy efficiency of established digital electronics, but we obtain the superconducting analogues to the conventional transistors and diodes.

These superconducting components are unique in that they enable new avenues for superconducting circuit design, resulting in opportunities in miniaturisation, performance and cost of devices that find application in communication, sensing and detection, signal amplification and routing.In JOGATE we wish to study superconducting transistors and diodes and to upgrade their fabrication processes to be compatible with the methods of large-scale integration, making it possible for Europe to lead their industrial production.

In parallel, we contribute to finding ways of improving their performance, to ease practical adoption and impact in areas ranging from cryogenic electronics to demanding environments such as space applications.

Finally, to demonstrate the value of the technology and to deliver important outcomes in the short-term, we develop two prototype devices for cryogenic microwave signal management: a radiofrequency switch and an integrated superconducting qubit control chip.

All Grantees

Universitaet Regensburg; Teknologian Tutkimuskeskus Vtt Oy; Commissariat A L Energie Atomique Et Aux Energies Alternatives; Jyvaskylan Yliopisto; Chalmers Tekniska Hogskola Ab

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