Math @ Duke
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Publications [#349744] of James H. Nolen
Papers Published
- Lim, TS; Lu, Y; Nolen, JH, Quantitative propagation of chaos in a bimolecular chemical reaction-diffusion model,
SIAM Journal on Mathematical Analysis, vol. 52 no. 2
(January, 2020),
pp. 2098-2133 [doi]
(last updated on 2024/04/20)
Abstract: We study a stochastic system of N interacting particles which models bimolecular chemical reaction-diffusion. In this model, each particle i carries two attributes: the spatial location Xit ∈ Td, and the type [I]it ∈ { 1, . . ., n} . While Xit is a standard (independent) diffusion process, the evolution of the type [I]it is described by pairwise interactions between different particles under a series of chemical reactions described by a chemical reaction network. We prove that, as N → ∞, the stochastic system has a mean field limit which is described by a nonlocal reaction-diffusion partial differential equation. In particular, we obtain a quantitative propagation of chaos result for the interacting particle system. Our proof is based on the relative entropy method used recently by Jabin and Wang [Invent. Math., 214 (2018), pp. 523-591]. The key ingredient of the relative entropy method is a large deviation estimate for a special partition function, which was proved previously by combinatorial estimates. We give a simple probabilistic proof based on a novel martingale argument.
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