
Federica Mantegazzini
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Biography
Federica Mantegazzini is an experimental physicist coordinating a research team focused on the development of superconducting quantum devices, both for fundamental physics experiments and
quantum applications. After graduating in Physics at University of Milano-Bicocca, F.M. moved to University of Heidelberg for her doctoral and postdoctoral studies. Since 2022, she is a research scientist at FBK and INFN associated researcher. Her scientific interests cover multiple areas, from cQED, quantum optics and condensed matter to cryogenic detectors, neutrino physics and astro-particle physics.
Technical skills and expertise
- Physics of superconducting quantum devices
- Cryogenic detectors for particle physics
- Design and development of superconducting circuits
- Microfabrication processes
- Cryogenic techniques
Experience
- Research internship, CERN, 2015
- Research internship, University of Heidelberg, 2016
- Doctoral researcher, University of Heidelberg, 2017-2021
- Postdoctoral researcher, University of Heidelberg, 2021-2022
- Research scientist, Foondazione Bruno Kessler, 2022-present
Current projects and collaborations
- QUARTET – QUantum Architectures for Theory & Technology (2025-2027) – funded by INFN CSN5
- Holmes+ – Determination of electron neutrino mass (2025-2027) – funded by INFN CSN2
- MiSS – Microwave Squeezing with Superconducting (meta)materials (2024-2027) – funded by Horizon Europe
- National Quantum Science and Technology Institute – NQSTI (2023-2026) – funded by Next Generation EU
- Qu-Pilot – Supporting experimental production capabilities for quantum technologies in Europe (2023-2026) – funded by Horizon Europe
- HyQMS – Hybrid Quantum Magnetomechanical System, Italy-Singapore Science and Technology Cooperation (2022-2025) – funded by MAECI
- ECFA DRD5 – Quantum Sensors – CERN – proto-collaboration
- DART WARS – Detector Array Readout with Traveling Wave AmplifieRS (2021-2024) – funded by INFN CSN5
- JUVENTUS – Josephson jUnctions with VErtical process for TUnable reSonators (2022-2023), funded by Q@Tn
- Superconducting quantum devices