Abstract
We report on experiments to detect molecular chirality using strong-field photoelectron spectroscopy. Gas-phase propylene oxide molecules were subjected to intense, femtosecond laser pulses which were arranged to synthesize a locally chiral electric field.
© 2024 The Author(s)
PDF ArticleMore Like This
N. Mayer, D. Ayuso, M. Ivanov, and O. Smirnova
FM4E.5 Frontiers in Optics (FiO) 2022
B. Fabre, A. Ferré, C. Handschin, M. Dumergue, F. Burgy, A. Comby, D. Descamps, G.A. Garcia, R. Géneaux, L. Merceron, E. Mével, L. Nahon, S. Petit, B. Pons, D. Staedter, S. Weber, T. Ruchon, V. Blanchet, and Y. Mairesse
HM1B.1 High Intensity Lasers and High Field Phenomena (HILAS) 2016
D. Faccialà, M. Devetta, S. Beauvarlet, N. Besley, F. Calegari, C. Callegari, D. Catone, E. Cinquanta, A. Ciriolo, L. Colaizzi, M. Coreno, G. Crippa, G. De Ninno, M. Di Fraia, M. Galli, G. Garcia, Y. Mairesse, M. Negro, O. Plekan, I. Powis, P. Prasannan Geetha, K. Prince, A. Pusala, S. Stagira, S. Turchini, K. Ueda, D. You, N. Zema, L. Nahon, V. Blanchet, et al.
M3B.5 International Conference on Ultrafast Phenomena (UP) 2020