The influence of dark excitons on the electroabsorption spectrum of polyacetylene

Abstract

This study revisits the electroabsorption (EA) spectrum of polyacetylene, as functions of the electric field strength, isomerization degree, and light polarization states. The EA spectrum of cis-(CH)x reveals an oscillatory feature that follows the Stark shift-related first derivative of the materials absorption spectrum that contains v(0-1) and v(0-2) sidebands of the excited C=C stretching vibration that agrees well with the Raman spectrum. EA spectrum of trans -(CH)x does not match the first derivative of the materials absorption spectrum, and the phonon sideband frequency does not agree with the RS spectrum. EA spectrum of trans -(CH)x reveals a band below the first allowed 1Bu exciton. We interpret this feature as due to the electric field activated even-parity dark (forbidden) exciton, namely mAg (m >1), showing that the nonluminescent trans -(CH)x is due to the reverse order of the excited states, where a dark mAg exciton lies below the allowed 1Bu exciton. This agrees with the unusual phonon sideband in trans -(CH)x absorption, since the excited state attenuation caused by the fast internal conversion from 1Bu to mAg influences the apparent frequency that determines the phonon sideband. Consequently, from the EA and RS spectra we estimate the 1Bu lifetime in trans -(CH)x to be 30 fs. Integrated EA spectrum of trans -(CH)x shows a traditional Huang-Rhys type series with a relaxation parameter, S 0.5. This indicates that the EA spectrum of the trans isomer is also determined by a Stark shift related to the first derivative of the absorption spectrum, but preferentially for the longest chains in the films chain lengths distribution. This is due to the N3 response of the non-linear susceptibility, (3) (), dependence on the chain length having N monomers.

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