Аннотация:
The presence of higher-index saddles on a multidimensional potential energy surface
is usually assumed to be of little significance in chemical reaction dynamics. Such a viewpoint
requires careful reconsideration, thanks to elegant experiments and novel theoretical approaches
that have come about in recent years. In this work, we perform a detailed classical and quantum
dynamical study of a model two-degree-of-freedom Hamiltonian, which captures the essence of
the debate regarding the dominance of a concerted or a stepwise reaction mechanism. We show
that the ultrafast shift of the mechanism from a concerted to a stepwise one is essentially a
classical dynamical effect. In addition, due to the classical phase space being a mixture of regular
and chaotic dynamics, it is possible to have a rich variety of dynamical behavior, including a
Murrell – Laidler type mechanism, even at energies sufficiently above that of the index-2 saddle.
We rationalize the dynamical results using an explicit construction of the classical invariant
manifolds in the phase space.