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Certain techniques characterizing diffusive processes, such as single-particle tracking or molecular dynamics simulation, provide time averages rather than ensemble averages. Whereas the ensemble-averaged mean-squared displacement (MSD) of an unbounded continuous time random walk (CTRW) with a broad distribution of waiting times exhibits subdiffusion, the time-averaged MSD, {^2}, does not. We demonstrate that, in contrast to the unbounded CTRW, in which {^2} is linear in the lag time, the time-averaged MSD of the CTRW of a walker confined to a finite volume is sublinear in, i. e. , for long lag times {^2}^1-. The present results permit the application of CTRW to interpret time-averaged experimental quantities.
Neusius et al. (Wed,) studied this question.