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Thermal decay rates of an activated complex in a driven model chemical reaction

Recent work has shown that in a non-thermal, multidimensional system, the trajectories in the activated complex possess different instantaneous and time-averaged reactant decay rates. Under dissipative dynamics, it is known that these trajectories, which are bound on the normally hyperbolic invariant manifold (NHIM), converge to a single trajectory over time. By subjecting these dissipative systems to thermal noise, we find fluctuations in the saddle-bound trajectories and their instantaneous decay rates. Averaging over these instantaneous rates results in the decay rate of the activated complex in a thermal system. We find, that the temperature dependence of the activated complex decay in a thermal system can be linked to the distribution of the phase space resolved decay rates on the NHIM in the non-dissipative case. By adjusting the external driving of the reaction, we show that it is possible to influence how the decay rate of the activated complex changes with rising temperature.

preprint2021arXivOpen access
Robin BardakciogluJohannes ReiffMatthias FeldmaierJörg MainRigoberto Hernandez
cond-mat.stat-mechphysics.chem-ph
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Robin BardakciogluJohannes ReiffMatthias FeldmaierJörg MainRigoberto Hernandez

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