화학공학소재연구정보센터
Journal of Chemical Physics, Vol.120, No.22, 10530-10542, 2004
Rotational state-dependent mixings between resonance states of vibrationally highly excited DCO ((X)over-tilde (2)A')
Rotational state-dependent mixings between highly excited resonance states of DCO ((X) over tilde (2)A') were investigated by stimulated emission pumping spectroscopy via a series of intermediate rotational levels in the (B) over tilde (2)A' electronic state of the radical. Two examples for such interactions, between pairs of accidentally nearly degenerate vibrational states at energies of E(v)approximate to6450 and E(v)approximate to10 060 cm(-1), respectively, were analyzed in detail. Deperturbations of the measured spectra provided the zeroth-order vibration-rotation term energies, widths, and rotational constants of the states and the absolute values of the vibrational coupling matrix elements. The coupled states turned out to have very different A rotational constants so that their mixings switch on or off as they are tuned relative to each other as function of the K-a rotational quantum number. The respective zeroth-order states could be assigned to different interlaced vibrational polyads. Thus, when two states belonging to different polyads are accidentally nearly isoenergetic, even very weak interpolyad interactions may start to play important roles. The derived interpolyad coupling elements are small compared to the typical intrapolyad coupling terms so that their influences on the vibrational term energies are small. However, large effects on the widths (i.e., decay rates) of the states can be observed even from weak coupling terms when a narrow, long-lived state is perturbed by a broad, highly dissociative state. This influence contributes to the previously observed strong state-to-state fluctuations of the unimolecular decay rates of the DCO radical as function of vibrational excitation. Similar mechanisms are likely to promote the transition to "statistical" rates in many larger molecules. (C) 2004 American Institute of Physics.