

























Chemical reaction networks are a widely accepted modeling framework for diverse science phenomena stemming from all disciplines of science, such as biochemistry, ecology, epidemiology, social and political science. In this paper we prove that every first order endotactic stochastic mass-action reaction system (SMART) is essential (i.e., every state in the state space is within a closed communicating class of the underlying continuous time Markov chain model) and is exponentially ergodic. The proof is based on a recent result on first order endotactic reaction networks in a companion paper [C.X., First order endotactic reaction networks. arXiv:2409.01598v2]. Besides, we show that a stochastic reaction system (of possibly nonlinear propensities) dominated by a first order endotactic SMART is exponentially erogdic. To demonstrate the applicability of results, we provide various examples of higher order SMART, including e.g., (1) SMART with a first order endotactic asymptotic limit as well as, (2) joint of translations of first order endotactic SMART.
此内容由惯性聚合(RSS阅读器)自动聚合整理,仅供阅读参考。 原文来自 — 版权归原作者所有。