Abstract
The structure and frequencies of the protonated water dimer normal vibrations were calculated at the MP4/Aug-cc-pVTZ level of theory. Shared proton stretching vibrations were analyzed by constructing 4D potential energy surface using normal coordinates Q6,Q7,Q8,Q9, which describe intermolecular vibration of water monomers, stretching and bending vibrations of the shared proton, respectively. 1–4 dimensional vibrational Schrödinger equations were solved using the discrete variable representation method. Values of some anharmonic constants, responsible for the triple and quadruple modes coupling with the shared proton stretching vibrations were obtained. The efficiency of the hybrid method in the determination of the frequency of shared proton stretching vibrations was demonstrated during the solution of the vibrational problem with nD reduced dimension for all used values of n (n = 1–4).
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