Prediction of photodynamics of 200nm excited cyclobutanone with linear response electronic structure and abinitio multiple spawning.

Diptarka Hait,Diptarka Hait,Dean Lahana,Dean Lahana,O Jonathan Fajen,O Jonathan Fajen,Amiel S P Paz,Amiel S P Paz,Pablo A Unzueta,Pablo A Unzueta,Bhaskar Rana,Bhaskar Rana,Lixin Lu,Lixin Lu,Yuanheng Wang,Yuanheng Wang,Eirik F Kjønstad,Eirik F Kjønstad,Eirik F Kjønstad,Henrik Koch,Todd J Martínez,Todd J Martínez

doi:10.1063/5.0203800

Abstract

Simulations of photochemical reaction dynamics have been a challenge to the theoretical chemistry community for some time. In an effort to determine the predictive character of current approaches, we predict the results of an upcoming ultrafast diffraction experiment on the photodynamics of cyclobutanone after excitation to the lowest lying Rydberg state (S2). A picosecond of nonadiabatic dynamics is described with abinitio multiple spawning. We use both time dependent density functional theory (TDDFT) and equation-of-motion coupled cluster singles and doubles (EOM-CCSD) theory for the underlying electronic structure theory. We find that the lifetime of the S2 state is more than a picosecond (with both TDDFT and EOM-CCSD). The predicted ultrafast electron diffraction spectrum exhibits numerous structural features, but weak time dependence over the course of the simulations.

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