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W4281962008 endingPage "3810" @default.
W4281962008 startingPage "3797" @default.
W4281962008 abstract "The transition path ensemble is of special interest in reaction coordinate identification as it consists of reactive trajectories that start from the reactant state and end in the product one. As a theoretical framework for describing the transition path ensemble, the transition path theory has been introduced more than 10 years ago, and so far, its applications have only been illustrated in several low-dimensional systems. Given the transition path ensemble, expressions for calculating flux, current (a vector field), and principal curves are derived here in the space of collective variables from the transition path theory, and they are applicable to time series obtained from molecular dynamics simulations of high-dimensional systems, i.e., the position coordinates as a function of time in the transition path ensemble. The connection of the transition path theory is made to a density-weighted average flux, a quantity proposed in a previous work to appraise the relevance of a coordinate to the reaction coordinate [Li, W. J. Chem. Phys. 2022, 156, 054117]. Most importantly, as an extension of the existing quantities, time-lagged quantities such as flux and current are also proposed. The main insights and objects provided by these time-lagged quantities are illustrated in the application to the alanine peptide in vacuum." @default.
W4281962008 created "2022-06-13" @default.
W4281962008 creator A5059950155 @default.
W4281962008 date "2022-06-07" @default.
W4281962008 modified "2023-09-30" @default.
W4281962008 title "Time-Lagged Flux in the Transition Path Ensemble: Flux Maximization and Relation to Transition Path Theory" @default.
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W4281962008 doi "https://doi.org/10.1021/acs.jpca.2c02221" @default.
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