Vibronic Spectra from First Principles: Capturing the Franck-Condon Effect without Born-Oppenheimer Surfaces

ORAL

Abstract

We simulate electron-nuclear vibronic spectra using the semiclassical Multi-Trajectory Ehrenfest (MTEF) dynamics method, without relying on the use of excited Born Oppenheimer (BO) energy surfaces. We find that the vibrational energy spectra matches the energy profile of the initial state of the electronic system. We explore the roles of both the initial state preparation and the approximate semiclassical time evolution, and show how the MTEF approach allows for the inclusion of electron-nuclear correlation in the initial conditions. We apply this approach to a one-dimensional model for the Hydrogen molecule and with an ab initio treatment of Benzene using time-dependent density functional theory, demonstrating that this first principles approach, besides being efficient and scalable, performs well in comparison with experiment. These results show promise for the applicability of this real-time method to capture electron-nuclear correlated phenomena in time-resolved spectra, and in nonlinear driving regimes, for systems where the BO framework is computationally intractable.

*We acknowledge funding from the ERC through the QSpec-NewMat Project

Presenters

  • Kevin Lively

    • Theory, Max Planck Inst Structure & Dynamics of Matter
    • Max Planck Inst Structure & Dynamics of Matter

Authors

  • Kevin Lively

    • Theory, Max Planck Inst Structure & Dynamics of Matter
    • Max Planck Inst Structure & Dynamics of Matter

  • Aaron Kelly

    • Theory, Max Planck Inst Structure & Dynamics of Matter
    • Max Planck Inst Structure & Dynamics of Matter

  • Shunsuke Sato

    • Physics, University of Tsukuba

  • Guillermo Albareda

    • Max Planck Inst Structure & Dynamics of Matter

  • Angel Rubio

    • Max Plank Institute for the Structure and Dynamics of Matter; Center for Computational Quantum Physics Flatiron Institute
    • Max Planck Institute for the Structure and Dynamics of Matter
    • Theory, Max Planck Institute for the Structure and Dynamics of Matter
    • Max Planck Inst Structure & Dynamics of Matter
    • Physics, Max Planck Institute
    • Max Planck Institute for Structure and Dynamics of Matter and Center for Free-Electron Laser Science
    • Max Planck Institute for the Structure and Dynamics of Matter, Center for Free Electron Laser Science, 22761 Hamburg, Germany
    • Max Planck Institute for the Structure and Dynamics of Matter and Center Free-Electron Laser Science, Hamburg, Germany
    • Max Planck Institute for the Structure and Dynamics of Matter, Hamburg, Germany
    • MPSD Hamburg
    • Max Planck Institute
    • Max Planck Inst Structure & Dynamics of Matter; Center for Computational Quantum Physics Flatiron Institute, Simons Foundation NY, USA
    • Theory, Max Planck Inst Structure & Dynamics of Matter