Abstract
Intramolecular energy transfer in hydrocarbons is modeled with an anharmonic HC bond coupled to a chain of harmonically coupled carbon atoms. The HC stretch is initially excited to various vibrational states and the flow of energy from the HC bond is observed. It is found that, at sufficiently high excitation, vibrational energy flow is irreversible and occurs on a time scale of roughly 100 fs, independent of chain length. This corresponds very well to experimentally observed spectral bandwidths. By analyzing the motion in a set of natural dynamical modes, it is shown that this energy transfer is due to sequential nonlinear resonances in the chain. Analytic modeling of the mode–mode couplings then provides a simple approximate description of the energy transfer process.
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