Litcius/Paper detail

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

Erik P. Månsson, Simone Latini, Fabio Covito, Vincent Wanie, Mara Galli, Enrico Perfetto, Gianluca Stefanucci, Hannes Hübener, Umberto De Giovannini, Mattea Carmen Castrovilli, Andrea Trabattoni, Fabio Frassetto, Luca Poletto, J. B. Greenwood, François Légaré, M. Nisoli, Ángel Rubio, Francesca Calegari

2021Communications Chemistry70 citationsDOIOpen Access PDF

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.

Topics & Concepts

AttosecondIonizationFemtosecondAtomic physicsElectronExcited stateExcitationChemistryElectronic correlationLaserMolecular physicsPhysicsIonOpticsUltrashort pulseQuantum mechanicsOrganic chemistryLaser-Matter Interactions and ApplicationsMass Spectrometry Techniques and ApplicationsAdvanced Chemical Physics Studies