| Literature DB >> 29271750 |
Riccardo Mincigrucci1, Filippo Bencivenga1, Emiliano Principi1, Flavio Capotondi1, Laura Foglia1, Denys Naumenko1, Alberto Simoncig1, Simone Dal Zilio2, Alessandro Gessini1, Gabor Kurdi1, Nicola Mahne1, Michele Manfredda1, Alessia Matruglio3, Ivaylo Nikolov1, Emanuele Pedersoli1, Lorenzo Raimondi1, Rudi Sergo1, Marco Zangrando1, Claudio Masciovecchio1.
Abstract
Time-resolved investigations have begun a new era of chemistry and physics, enabling the monitoring in real time of the dynamics of chemical reactions and matter. Induced transient optical absorption is a basic ultrafast electronic effect, originated by a partial depletion of the valence band, that can be triggered by exposing insulators and semiconductors to sub-picosecond extreme-ultraviolet pulses. Besides its scientific and fundamental implications, this process is very important as it is routinely applied in free-electron laser (FEL) facilities to achieve the temporal superposition between FEL and optical laser pulses with tens of femtoseconds accuracy. Here, a set of methodologies developed at the FERMI facility based on ultrafast effects in condensed materials and employed to effectively determine the FEL/laser cross correlation are presented.Keywords: FEL diagnostics; cross correlation; pump–probe; timing
Year: 2018 PMID: 29271750 DOI: 10.1107/S1600577517016368
Source DB: PubMed Journal: J Synchrotron Radiat ISSN: 0909-0495 Impact factor: 2.616