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Prof. Dr. Daniele Brida
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| Faculty or Centre | Faculty of Science, Technology and Medicine | ||||
| Department | Department of Physics and Materials Science | ||||
| Postal Address |
Campus Limpertsberg, Université du Luxembourg 162 A, avenue de la Faïencerie L-1511 Luxembourg |
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| Campus Office | BS 3.16A | ||||
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| Telephone | (+352) 46 66 44 4967 | ||||
| Fax | (+352) 46 66 44 34967 | ||||
Professor Daniel Brida leads the research group "Ultrafast Phenomena in Condensed Matter" within the Physics and Materials Science Research Unit (PHYMS) at the University of Luxembourg.
His scientific career is devoted to the study of ultrafast processes in condensed matter by means of advanced optical technology. In particular, he develops novel ultrafast techniques based on nonlinear optics concepts with the main goal to investigate elementary quantum electronic processes in systems like 2-dimensional layered materials and in confined nanostructures. His activity led to more than 70 publications in major peer-reviewed journals including Nature, Science, PNAS, Nature Physics, Nature Materials, Nature Photonics and Physical Review Letters. His current h-index is 32 with more than 3000 overall citations (source: ISI Web of Knowledge). He has also presented several invited talks at international conferences, symposia and academic institutions.
He also had the honour to receive the Fresnel prize of the European Physical Society with the following citation: “for the development of broadly tunable few-optical-cycle laser sources and their application in the investigation of primary photo-induced processes in condensed matter systems”.”
Last updated on: Monday, 20 January 2020
Last updated on: 06 Dec 2018
2020
Ultrafast all-optical switching enabled by epsilon-near-zero-tailored absorption in metal-insulator nanocavities; ; ; ; ; ; ;
in Communications Physics (2020), 3
2019
Dynamics of electron-emission currents in plasmonic gaps induced by strong fields; ; ; ; ; ;
in FARADAY DISCUSSIONS (2019), 214
Ultrafast carrier recombination in highly n-doped Ge-on-Si films; ; ; ; ;
in APPLIED PHYSICS LETTERS (2019), 114(24),
Control of excitonic absorption by thickness variation in few-layer GaSe; ; ; ; ; ;
in PHYSICAL REVIEW B (2019), 100(4),
Field-resolved response of plasmonic antennas; ; ; ; ; ; ; ; ;
in Proceedings 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference (2019)
Pump-probe spectroscopy study of ultrafast temperature dynamics in nanoporous gold; ; ; ; ;
in PHYSICAL REVIEW B (2019), 99(3),
2018
Switchable dissociation of excitons bound at strained CdTe/CdS interfaces; ; ; ; ; ;
in Nanoscale (2018)
Plasmonic mid-infrared third harmonic generation in germanium nanoantennas; ; ; ; ; ; ; ; ; ;
in Light: Science and Applications (2018)
