A nucleation point of PSI competences towards the quantum technology initiative.
PSI's expertise in the study of quantum matter and engineering of nanoelectronics is directly connected to the availability of world-class large-scale facilities, such as the SINQ neutron and SµS muon source, the SLS synchrotron and the SwissFEL x-ray free-electron laser.
The Quantum Technology Collaboration at PSI (QTC@PSI) serves as a platform to coalesce key competences and know-how (imaging, spectroscopy, sample synthesis, nanofabrication and theory) that will lead to the development of components required to implement quantum technology in everyday life. Critical expertise in nanofabrication, optical amplifiers & microwave technology, metrology, cryogenics & magnet engineering, as well as detector technology exist at PSI today. This combination of scientific excellence in materials science and quantum materials along with the technological know-how and large scale facilities means PSI is uniquely positioned to make significant contributions to the quantum revolution that now is unfolding worldwide.
Latest News
Zeitbremse und Ionenfallen
Cornelius Hempel berechnet Quantenphänomene mit Quanten. Klingt logisch, ist aber hochkomplex. Sein neuester Coup: ein Quantensimulator, der die Zeit verlangsamt.
Disorder begins at the surface of quantum materials
Ultrafast X-rays from SwissFEL reveal unexpected light responses in quantum materials.
The Quantum Revolution: What's Next?
A century on from the birth of quantum mechanics, 2025 marks the UNESCO International Year of Quantum Science and Technology. What does the future hold? Our experts share their opinions.
Peering into matter with ultrashort X-ray ripples
An all-X-ray transient grating experiment allows scientists to study the dynamics of quantum particles at the nanoscale.
Renommierte Förderung für photonische Netzwerke
PSI-Forscherin Kirsten Moselund hat vom Europäischen Forschungsrat ERC eine bedeutende Forschungsförderung zugesprochen bekommen.
Stabilising fleeting quantum states with light
X-rays from SwissFEL probe emergent properties of quantum materials