Analysis and simulations of the discrete fragmentation equation with decay
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Date
Authors
Banasiak, Jacek
Joel, L.O.
Shindin, S.
Journal Title
Journal ISSN
Volume Title
Publisher
Wiley
Abstract
Fragmentation‐coagulation processes, in which aggregates can break up or get together, often occur together with decay processes in which the components can be removed from the aggregates by a chemical reaction, evaporation, dissolution, or death. In this paper, we consider the discrete decay‐fragmentation equation and prove the existence and uniqueness of physically meaningful solutions to this equation using the theory of semigroups of operators. In particular, we find conditions under which the solution semigroup is analytic, compact, and has the asynchronous exponential growth property. The theoretical analysis is illustrated by a number of numerical simulations.
Description
The paper was presented at the BIOMATH 2017 Conference, Skukuza, 25–30.06.2017.
Keywords
Asynchronous exponential growth, C0 semigroups, Death process, Discrete fragmentation, Long-term behaviour, Numerical simulations, Spectral gap, Aggregates, Exponential growth, Numerical models, Computer simulation
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Citation
Banasiak J, Joel LO, Shindin S. Analysis and simulations of the discrete fragmentation
equation with decay. Mathematical Methods in the Applied Sciences. 2018;41:6530–6545. https://doi.org/10.1002/mma.4666.