
Journal of Chemical Physics p. 97 - 114 (1987)
Update date:2022-08-11
Topics:
Scherer, Norbert F.
Zewail, Ahmed H.
This paper, second in the series, reports on the picosecond time-resolved photofragmentation of the overtone ( νOH = 5 ) initiated reaction: HOOH + hν <*> 2OH.The hydrogen peroxide is initially excited by way of a picosecond laser pulse to the fourth overtone level of the OH- stretch local mode.The subsequent unimolecular reaction behavior is obtained by monitoring the laser-induced fluorescence, caused by the picosecond probe-pulse electronic excitation of the OH radical photoproduct ( in a given rotational state ) .The two pulses are scanned relative to one another in time thereby mapping out the product yield for the given delay-time interval.The resultant product formation behavior is found to be nonexponential, and may be modeled as a biexponential rise.Furthermore, the quasibiexponential behavior is sensitive to the exact excitation wavelength-slight variations of which result in large changes in the two time constants and the relative amplitudes of the fast and slow components.These experiments give direct evidence for the inhomogeneous nature of the overtone transition on the picosecond time scale, and provide the dissociation rate contribution to the homogeneous width (0.05 - 15 cm-1 ).The apparent width for the main band feature is about 200 cm-1.The rate of product formation ( magnitude and form ) is interpreted in terms of statistical and nonstatistical theories.The limitations of the applicability of each model is discussed.The fluctuations of the fitting parameters as a function of excitation wavelength may be simulated by a statistical model which considers all possible discrete optical transitions within the simulated laser bandwidth and the details of product formation from each state.For a nonstatistical interpretation, the biexponential form reflects a division of the vibrational phase space, and this is discussed in the spirit of a kinetic model.Finally, experimental results are reported for direct UV initiated photofragmentation.The observed dynamics indicate that a very different type of potential surface (repulsive) is involved, in contrast to the overtone initiated dissociation, which takes place on the ground state surface.
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