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Theoretical investigation of the infrared spectra of the H5 + and D5 + cations

AutorValdés, Álvaro ; Prosmiti, Rita
Fecha de publicación2013
EditorAmerican Chemical Society
CitaciónThe journal of physical chemistry, A, Molecules, spectroscopy, kinetics, environment & general theory 117: 9518- 9524 (2013)
ResumenReduced dimensional quantum dynamics calculations of the infrared spectrum of the H5 + and D5 + clusters are reported in both low, 300-2200 cm-1, and high, 2400-4500 cm -1, energy regions. The proposed four-dimensional quantum model describes the motion of the proton between the two vibrating hydrogen molecules. The simulations are performed using time-dependent and time-independent approaches within the multiconfiguration time-dependent Hartree method. Propagation of the wavepackets includes an absorbing scheme to deal with vibrational dissociating states, and to assign the different spectral lines, block improved relaxation computations are performed for both bound and predissociative vibrational states of the systems. The reported computations make use of an analytical ab initio-based potential energy, and >on the fly> DFT dipole moment surfaces. The predominant features in the spectra are assigned to the excitations of the shared-proton stretch mode, and above dissociation the symmetric and antisymmetric stretching of the two H2 and the breathing mode of H3 + are also involved. The computed infrared absorption spectra for both cations are in very good agreement with the recent experimental measurements available from multiple-photon dissociation and mass-selected single-photon photodissociation spectroscopy techniques. Comparison of the present results with previous theoretical calculations on these systems is also presented. Such comparisons between different theoretical approaches and experimental measurements can serve to evaluate the approximations employed, and to guide higher-order computations. © 2013 American Chemical Society.
URIhttp://hdl.handle.net/10261/87653
DOI10.1021/jp3121947
Identificadoresdoi: 10.1021/jp3121947
issn: 1089-5639
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