Ultrafast molecular orbital imaging of a pentacene thin film using a free electron laser


Abstract in English

We use time-resolved molecular orbital mapping to explore fundamental processes of excited wave packets and charge transfer dynamics in organic films on femtosecond time scales. We investigate a bilayer pentacene film on Ag(110) by optical laser pump and FEL probe experiments. From the angle-resolved photoemission signal, we obtain time-dependent momentum maps of the molecular valence states that can be related to their molecular initial states by simulations of the involved photoemission matrix elements. We discover a state above the Fermi edge that is temporarily occupied after optical excitation. The wave function of this state is imaged and identified as a transient charge transfer exciton extending over two neighboring molecules.

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