Prof. Dr. Andrea Trabattoni

Prof. Dr. Andrea Trabattoni
Prof. Dr. Andrea Trabattoni
Funktionen
Junior-Professorinnen und Junior-Professoren
Fakultätsverwaltung und zentrale Einrichtungen der Fakultät für Mathematik und Physik
Junior-Professorinnen und Junior-Professoren
Institut für Quantenoptik
Junior-Professorinnen und Junior-Professoren
Institut für Quantenoptik
Ultrafast Laser Laboratory

Research

My research focuses on the investigation of the electron motion in matter, with particular interest in atoms, molecules, and interfaces. In my research, I employ the tools of ultrafast laser technology and develop pump-probe schemes to capture the electron dynamics in the targets under study with extremely high-temporal resolution, i.e., from femtosecond (1 fs = 10^-15 s) to attosecond (1 fs = 10^-18 s) time scale. Since 2021, I have been leading a research team that investigates the photo-induced electron dynamics involved in nuclear transitions.

Academic Career

Since 2022 Junior Professor in Ultrafast Photoelectron Science, Institute of Quantum Optics, Leibniz Universität Hannover, Germany.
Since 2021 Helmholtz Young Investigator group leader, "Time-resolved spectroscopy of photo-induced electron dynamics in nuclear transitions", Attosecond Science group of the DESY Photon Science Division, Hamburg, Germany.
Since 2018 Team leader in the Attosecond Science group of the DESY Photon Science Division, Hamburg, Germany.
2016 - 2018 Alexander von Humboldt fellow at Center for Free Electron Laser Science(CFEL), DESY, Hamburg
Proposal title: Structure-resolved ultrafast dynamics in complex molecules by laser-induced electron diffraction
2015 Postdoctoral Researcher at Polytechnic of Milan, Italy
Project title: Molecular dynamics induced by monochromatized XUV light
2011 - 2014 PhD cum laude – Experimental Physics, Polytechnic of Milan, Italy
Thesis title: Attosecond electron dynamics in complex molecular systems
2006 - 2011 Master Graduation cum laude – Theoretical Physics, University of Milan-Bicocca, Italy
Thesis title: Stopping light in two dimensional quasicrystalline waveguides