We consider the exit event from a metastable state for the overdamped Langevin dynamics dXt=-∇f(Xt)dt+hdBt. Using tools from semiclassical analysis, we prove that, starting from the quasi stationary distribution within the state, the exit event can be modeled using a jump Markov process parametrized with the Eyring–Kramers formula, in the small temperature regime h→ 0. We provide in particular sharp asymptotic estimates on the exit distribution which demonstrate the importance of the prefactors in the Eyring–Kramers formula. Numerical experiments indicate that the geometric assumptions we need to perform our analysis are likely to be necessary. These results also hold starting from deterministic initial conditions within the well which are sufficiently low in energy. From a modelling viewpoint, this gives a rigorous justification of the transition state theory and the Eyring–Kramers formula, which are used to relate the overdamped Langevin dynamics (a continuous state space Markov dynamics) to kinetic Monte Carlo or Markov state models (discrete state space Markov dynamics). From a theoretical viewpoint, our analysis paves a new route to study the exit event from a metastable state for a stochastic process.

Sharp Asymptotics of the First Exit Point Density / Di Gesù, G. F.; Lelievre, T.; Le Peutrec, D.; Nectoux, B.. - In: ANNALS OF PDE. - ISSN 2199-2576. - 5:1(2019). [10.1007/s40818-019-0059-2]

Sharp Asymptotics of the First Exit Point Density

Di Gesù G. F.;
2019

Abstract

We consider the exit event from a metastable state for the overdamped Langevin dynamics dXt=-∇f(Xt)dt+hdBt. Using tools from semiclassical analysis, we prove that, starting from the quasi stationary distribution within the state, the exit event can be modeled using a jump Markov process parametrized with the Eyring–Kramers formula, in the small temperature regime h→ 0. We provide in particular sharp asymptotic estimates on the exit distribution which demonstrate the importance of the prefactors in the Eyring–Kramers formula. Numerical experiments indicate that the geometric assumptions we need to perform our analysis are likely to be necessary. These results also hold starting from deterministic initial conditions within the well which are sufficiently low in energy. From a modelling viewpoint, this gives a rigorous justification of the transition state theory and the Eyring–Kramers formula, which are used to relate the overdamped Langevin dynamics (a continuous state space Markov dynamics) to kinetic Monte Carlo or Markov state models (discrete state space Markov dynamics). From a theoretical viewpoint, our analysis paves a new route to study the exit event from a metastable state for a stochastic process.
2019
Exit problem; Eyring-Kramers formula; Kinetic Monte Carlo models; Metastable stochastic process; Semi-classical analysis; Witten Laplacians
01 Pubblicazione su rivista::01a Articolo in rivista
Sharp Asymptotics of the First Exit Point Density / Di Gesù, G. F.; Lelievre, T.; Le Peutrec, D.; Nectoux, B.. - In: ANNALS OF PDE. - ISSN 2199-2576. - 5:1(2019). [10.1007/s40818-019-0059-2]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1557705
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