Project

Back to overview

NCCR QSIT: Quantum Science and Technology (phase III)

English title NCCR QSIT: Quantum Science and Technology
Applicant Ensslin Klaus
Number 185902
Funding scheme National Centres of Competence in Research (NCCRs)
Research institution Laboratorium für Festkörperphysik ETH Zürich
Institution of higher education ETH Zurich - ETHZ
Main discipline Condensed Matter Physics
Start/End 01.01.2019 - 31.12.2022
Approved amount 14'975'000.00
Show all

Responsible applicant and co-applicants

Name Institute

Associated projects

Number Title Start Funding scheme
205334 Ultra high precision electron beam lithography system for nanodevice and nanostructures definition 01.01.2022 R'EQUIP
207538 Quantum correlations in highest-purity III/V semiconductors and superconductor hybrid systems 01.04.2022 Project funding
160591 NCCR QSIT: Quantum Science and Technology (phase II) 01.01.2015 National Centres of Competence in Research (NCCRs)
197230 Non-classical correlations in ultracold atomic ensembles 01.10.2020 Project funding
204968 Quantum devices in 2D materials 01.02.2022 Project funding
207520 Quantum Photonics and cavity-QED in two-dimensional materials 01.06.2022 Project funding
189639 Manipulator for UHV Sputter Deposition Chamber 01.12.2019 R'EQUIP
207795 Engineering and probing electronic properties of solid-state matter with vacuum fluctuations in Terahertz metamaterials 01.04.2022 Project funding
189635 Superconducting magnet for 2-D Penning trap quantum computation and simulation 01.12.2019 R'EQUIP
207334 Ion-trap quantum computing using integrated optics 01.04.2022 Project funding
204927 Cavity Quantum Electro-optomechanics 01.12.2021 Project funding
197168 Hybridized spin system for next generation of optical quantum memories 01.03.2021 Project funding
204076 Strongly correlated electrons in van der Waals heterostructures: an optical investigation 01.12.2021 Project funding
204123 Quantum technologies for molecular precision spectroscopy 01.01.2022 Project funding
207933 Revealing 2D magnetism via nanoscale magnetometry 01.04.2022 Project funding

-