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Berlin 2024 – wissenschaftliches Programm

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O: Fachverband Oberflächenphysik

O 78: Focus Session: Ultrafast Processes in Organic Semiconductors and Perovskites I (joint session O/CPP)

O 78.7: Vortrag

Donnerstag, 21. März 2024, 12:30–12:45, MA 004

Disentangling the multiorbital contributions of excitons by photoemission exciton tomography — •G. S. Matthijs Jansen1, Wiebke Bennecke1, Andreas Windischbacher2, Ralf Hemm3, David Schmitt1, Jan Philipp Bange1, Christian Kern2, Daniel Steil1, Sabine Steil1, Marcel Reutzel1, Martin Aeschlimann3, Peter Puschnig2, Benjamin Stadtmüller3,4, and Stefan Mathias11I. Physikalisches Institut, Georg-August-Universität Göttingen — 2Institute of Physics, University of Graz — 3Department of Physics and Research Center OPTIMAS, University of Kaiserslautern — 4Institute of Physics, Johannes Gutenberg-University Mainz

The opto-electronic response of organic semiconductors is well-known to be dominated by excitons, i.e. quasiparticles that consist of bound electron-hole pairs. As excitons are realizations of a correlated many-particle wave function, experimental and theoretical methods must probe and characterize the the full electron-hole wavefunction, rather than just the single-particle orbitals. Recently, we have shown that time-resolved photoemission momentum microscopy can probe the entangled wavefunction and thereby unravel the exciton’s multiorbital electron and hole contributions [1]. We demonstrate this for the prototypical organic semiconductor buckminsterfullerene (C60) and achieve unprecedented access to key properties of the exciton state including localization, charge-transfer character, and ultrafast exciton formation and relaxation dynamics.

[1] W. Bennecke et al., arXiv preprint arXiv:2303.13904 (2023)

Keywords: Photoemission orbital tomography; Excitons; Momentum microscopy; Femtosecond dynamics

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