Sudden ionisation of a relatively large molecule can initiate a correlation-driven process dubbed charge migration, where the electron density distribution is expected to rapidly move along the molecular backbone. Capturing this few-femtosecond or attosecond charge redistribution would represent the real-time observation of electron correlation in a molecule with the enticing prospect of following the energy flow from a single excited electron to the other coupled electrons in the system. Here, we report a time-resolved study of the correlation-driven charge migration process occurring in the nucleic-acid base adenine after ionisation with a 15–35 eV attosecond pulse. We find that the production of intact doubly charged adenine – via a shortly-delayed laser-induced second ionisation event – represents the signature of a charge inflation mechanism resulting from many-body excitation. This conclusion is supported by first-principles time-dependent simulations. These findings may contribute to the control of molecular reactivity at the electronic, few-femtosecond time scale.

Mansson E.P., Latini S., Covito F., Wanie V., Galli M., Perfetto E., et al. (2021). Real-time observation of a correlation-driven sub 3 fs charge migration in ionised adenine. COMMUNICATIONS CHEMISTRY, 4(1), 1-7 [10.1038/s42004-021-00510-5].

Real-time observation of a correlation-driven sub 3 fs charge migration in ionised adenine

Galli M.;De Giovannini U.;
2021-05-20

Abstract

Sudden ionisation of a relatively large molecule can initiate a correlation-driven process dubbed charge migration, where the electron density distribution is expected to rapidly move along the molecular backbone. Capturing this few-femtosecond or attosecond charge redistribution would represent the real-time observation of electron correlation in a molecule with the enticing prospect of following the energy flow from a single excited electron to the other coupled electrons in the system. Here, we report a time-resolved study of the correlation-driven charge migration process occurring in the nucleic-acid base adenine after ionisation with a 15–35 eV attosecond pulse. We find that the production of intact doubly charged adenine – via a shortly-delayed laser-induced second ionisation event – represents the signature of a charge inflation mechanism resulting from many-body excitation. This conclusion is supported by first-principles time-dependent simulations. These findings may contribute to the control of molecular reactivity at the electronic, few-femtosecond time scale.
20-mag-2021
Mansson E.P., Latini S., Covito F., Wanie V., Galli M., Perfetto E., et al. (2021). Real-time observation of a correlation-driven sub 3 fs charge migration in ionised adenine. COMMUNICATIONS CHEMISTRY, 4(1), 1-7 [10.1038/s42004-021-00510-5].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/543099
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