Elettra-Sincrotrone Trieste S.C.p.A. website uses session cookies which are required for users to navigate appropriately and safely. Session cookies created by the Elettra-Sincrotrone Trieste S.C.p.A. website navigation do not affect users' privacy during their browsing experience on our website, as they do not entail processing their personal identification data. Session cookies are not permanently stored and indeed are cancelled when the connection to the Elettra-Sincrotrone Trieste S.C.p.A. website is terminated.
More info
OK

Impulsive laser-induced alignment of OCS molecules at FERMI

We have demonstrated laser induced alignment of OCS molecules in the impulsive regime. Revival dynamics were observed for ionic fragments produced
after ionization and Coulomb explosion in aligned molecules.  M. Di Fraia et al. Physical Chemistry Chemical Physics (2017)

 
We demonstrate the experimental realization of impulsive alignment of carbonyl sulfide (OCS) molecules at the Low Density Matter Beamline (LDM) at the free-electron laser FERMI. OCS molecules in a molecular beam were impulsively aligned using 200 fs pulses from a near-infrared laser. The alignment was probed through time-delayed ionization above the sulphur 2p edge, resulting in multiple ionization via Auger decay and subsequent Coulomb explosion of the molecules. The ionic fragments were collected using a time-of-flight mass spectrometer and the analysis of ion–ion covariance maps confirmed the correlation between fragments after Coulomb explosion. The analysis of the CO+ and S+ channels allowed us to extract the rotational dynamics, which is in agreement with our theoretical description as well as with previous experiments. This result opens the way for a new class of experiments at LDM within the field of coherent control of molecules with the possibilities that a precisely synchronized optical-pump XUV-probe laser setup like FERMI can offer. Retrieve article
Impulsive laser-induced alignment of OCS molecules at FERMI
M. Di Fraia  P. Finetti, R.Richter, K. C. Prince, J. Wiese , M. Devetta, M. Negro, C. Vozzi, A. G. Ciriolo, A. Pusala , A. Demidovich, M. B. Danailov, T. E. Karamatskos, S. Trippel, J. Küpper, C. Callegari
Physical Chemistry Chemical Physics (2017) doi: 10.1039/C7CP01812F

 
Last Updated on Wednesday, 28 June 2017 12:44