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Paper detail

Arbitrarily accurate representation of atomistic dynamics via Markov Renewal Processes

Atomistic simulations with methods such as molecular dynamics are extremely powerful tools to understand nanoscale dynamical behavior. The resulting trajectories, by the virtue of being embedded in a high-dimensional configuration space, can however be difficult to analyze and interpret. This makes low-dimensional representations, especially in terms of discrete jump processes, extremely valuable. This simplicity however usually comes at the cost of accuracy, as tractable representations often entail simplifying assumptions that are not guaranteed to be realized in practice. In this paper, we describe a discretization scheme for continuous trajectories that enables an arbitrarily accurate representation in terms of a Markov Renewal Process over a discrete state space. The accuracy of the model converges exponentially fast as a function of a continuous parameter that has the interpretation of a local correlation time of the dynamics.

preprint2020arXivOpen access
Animesh AgarwalSandrasegaram GnanakaranNicholas HengartnerArthur F. VoterDanny Perez
cond-mat.stat-mech
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Animesh AgarwalSandrasegaram GnanakaranNicholas HengartnerArthur F. VoterDanny Perez

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