Mass analyzed, threshold ionization spectroscopy of o-, m-, and p-dichlorobenzenes.: Influence of the chlorine position on vibrational spectra and ionization energy

For the first time, vibrational spectra of the Cl-35(2) and (ClCl)-Cl-35-Cl-37 isotopomers of o-, m-, and p-dichlorobenzene cations in the electronic ground state have been measured via S, intermediate states by mass analyzed threshold ionization (MATI) spectroscopy. Additionally, ab initio calculations at DFT (density functional theory), CIS (configuration interaction singles), and CASSCF (complete active space self-consistent field) levels of theory have been conducted to compare experimental findings with theory. From the MATI spectra,adiabatic ionization energies of the ortho, meta, and para isomers have been determined to be the same for each pair of investigated isotopomers to 73 237 +/- 6, 72 191 +/- 6, and 73 776 +/- 6 cm(-1), respectively. Several vibrational modes, including fundamentals, combinations, and progressions have been assigned by comparing the experimental and theoretical results. The appearance of overtone progressions involving the 7a mode could be explained by a geometry change of all three isomers during ionization in the direction of this mode by retraining the symmetry of the molecules. Although the general spectral features of the investigated isotoporners are similar, frequencies of some vibrations are slightly different up to a few wavenumbers depending on the involvement of the chlorine atoms in the molecular motion.