Quantitative homogenization of first-order ODEs
Abstract
This paper investigates the quantitative homogenization of first-order ODEs. For single-scale scalar ODEs, we obtain a sharp O() convergence rate and characterize the effective constant. In the multi-scale setting, our results match those of IM for long times but improve the short-time error to O(). We also initiate the study of quasi-periodic homogenization in this context. The scalar framework is further extended to higher dimensions under a boundedness assumption on trajectories. For weakly coupled systems with fast switching rates, we obtain for the first time a convergence rate of order O(). These results have applications to linear transport equations and broader connections to PDEs and gradient systems.
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