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Paper detail

Setting the photoelectron clock through molecular alignment

The interaction of strong laser fields with matter intrinsically provides powerful tools to image transient dynamics with an extremely high spatiotemporal resolution. Here, we study strong-field ionisation of laser-aligned molecules and show a full real-time picture of the photoelectron dynamics in the combined action of the laser field and the molecular interaction. We demonstrate that the molecule has a dramatic impact on the overall strong-field dynamics: it sets the clock for the emission of electrons with a given rescattering kinetic energy. This result represents a benchmark for the seminal statements of molecular-frame strong-field physics and has strong impact on the interpretation of self-diffraction experiments. Furthermore, the resulting encoding of the time-energy relation in molecular-frame photoelectron momentum distributions shows the way of probing the molecular potential in real-time and accessing a deeper understanding of electron transport during strong-field interactions.

preprint2020arXivOpen access
Andrea TrabattoniJoss WieseUmberto De GiovanniniJean François OlivieriTerry MullinsJolijn OnvleeSang-Kil SonBiagio FrusteriAngel RubioSebastian TrippelJochen Küpper
physics.atm-clusphysics.atom-phphysics.chem-ph
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Andrea TrabattoniJoss WieseUmberto De GiovanniniJean François OlivieriTerry MullinsJolijn OnvleeSang-Kil SonBiagio FrusteriAngel RubioSebastian TrippelJochen Küpper

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