We study the limit of high activation energy of a special Fokker–Planck equation known as the Kramers–Smoluchowski equation (KS). This equation governs the time evolution of the probability density of a particle performing a Brownian motion under the influence of a chemical potential H/ε. We choose H having two wells corresponding to two chemical states A and B. We prove that after a suitable rescaling the solution to KS converges, in the limit of high activation energy (ε → 0), to the solution of a simple system modeling the diffusion of A and B, and the reaction A B. The aim of this paper is to give a rigorous proof of Kramers’s formal derivation and to embed chemical reactions and diffusion processes in a common variational framework which allows one to derive the former as a singular limit of the latter, thus establishing a connection between two worlds often regarded as separate. The singular limit is analyzed by means of Γ-convergence in the space of finite Borel measures endowed with the weak-∗ topology
FROM DIFFUSION TO REACTION VIA Γ-CONVERGENCE
SAVARE', GIUSEPPE;VENERONI, MARCO
2010-01-01
Abstract
We study the limit of high activation energy of a special Fokker–Planck equation known as the Kramers–Smoluchowski equation (KS). This equation governs the time evolution of the probability density of a particle performing a Brownian motion under the influence of a chemical potential H/ε. We choose H having two wells corresponding to two chemical states A and B. We prove that after a suitable rescaling the solution to KS converges, in the limit of high activation energy (ε → 0), to the solution of a simple system modeling the diffusion of A and B, and the reaction A B. The aim of this paper is to give a rigorous proof of Kramers’s formal derivation and to embed chemical reactions and diffusion processes in a common variational framework which allows one to derive the former as a singular limit of the latter, thus establishing a connection between two worlds often regarded as separate. The singular limit is analyzed by means of Γ-convergence in the space of finite Borel measures endowed with the weak-∗ topologyI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
