L. Turban, J. -Y. Fortin
Published 2017-11-03Version 1
Diffusion-coagulation can be simply described by a dynamic where particles perform a random walk on a lattice and coalesce with probability unity when meeting on the same site. Such processes display non-equilibrium properties with strong fluctuations in low dimensions. In this work we study this problem on the fully-connected lattice, an infinite-dimensional system in the thermodynamic limit, for which mean-field behaviour is expected. Exact expressions for the particle density distribution at a given time and survival time distribution for a given number of particles are obtained. In particular we show that the time needed to reach a finite number of surviving particles (vanishing density in the scaling limit) displays strong fluctuations and extreme value statistics, characterized by a universal class of non-Gaussian distributions with singular behaviour.
Comments: 24 pages, 9 figures
Reaction-diffusion on the fully-connected lattice: probability distributions and extreme value statistics for $A+B\rightarrow$ Ø
Reaction-diffusion with a time-dependent reaction rate: the single-species diffusion-annihilation process
Records for the number of distinct sites visited by a random walk on the fully-connected lattice
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