AIP Advances (Sep 2021)

Exciton dispersion in para-quaterphenyl: Significant molecular interactions beyond Coulomb coupling

  • Lukas Graf,
  • Yulia Krupskaya,
  • Bernd Büchner,
  • Martin Knupfer

DOI
https://doi.org/10.1063/5.0058657
Journal volume & issue
Vol. 11, no. 9
pp. 095313 – 095313-6

Abstract

Read online

We have experimentally determined the momentum dependence of the electronic excitation spectra of para-quaterphenyl single crystals. The parallel arrangement of para-quaterphenyl molecules results in a strong Coulomb coupling of the molecular excitons. Such crystals have been considered to be a very good realization of the Frenkel exciton model, including the formation of H-type aggregates. Our data reveal an unexpected exciton dispersion of the upper Davydov component, which cannot be rationalized in terms of inter-molecular Coulomb coupling of the excitons. A significant reduction of the nearest neighbor coupling due to additional charge-transfer processes is able to provide an explanation of the data. Furthermore, the spectral onset of the excitation spectrum, which represents a heavy exciton resulting from exciton–phonon coupling, also shows a clear dispersion, which had been unknown so far. Finally, an optically forbidden excitation about 1 eV above the excitation onset is observed.