%0 Journal Article %A Craven, Galen T. %A Bartsch, Thomas %A Hernandez, Rigoberto %D 2015 %T Communication: transition state trajectory stability determines barrier crossing rates in chemical reactions induced by time-dependent oscillating fields %U https://repository.lboro.ac.uk/articles/journal_contribution/Communication_transition_state_trajectory_stability_determines_barrier_crossing_rates_in_chemical_reactions_induced_by_time-dependent_oscillating_fields/9386483 %2 https://repository.lboro.ac.uk/ndownloader/files/16999679 %K untagged %K Mathematical Sciences not elsewhere classified %X When a chemical reaction is driven by an external field, the transition state that the system must pass through as it changes from reactant to product—for example, an energy barrier—becomes timedependent. We show that for periodic forcing the rate of barrier crossing can be determined through stability analysis of the non-autonomous transition state. Specifically, strong agreement is observed between the difference in the Floquet exponents describing stability of the transition state trajectory, which defines a recrossing-free dividing surface [G. T. Craven, T. Bartsch, and R. Hernandez,“Persistence of transition state structure in chemical reactions driven by fields oscillating in time,”Phys. Rev. E 89, 040801(R) (2014)], and the rates calculated by simulation of ensembles of trajectories. This result opens the possibility to extract rates directly from the intrinsic stability of the transition state, even when it is time-dependent, without requiring a numerically expensive simulation of the long-time dynamics of a large ensemble of trajectories %I Loughborough University