Achillefs Tzioufas
Published 2011-02-14, updated 2013-04-16Version 3
The basic contact process with parameter $\mu$ altered so that infections of sites that have not been previously infected occur at rate proportional to $\lambda$ instead is considered. Emergence of an infinite epidemic starting out from a single infected site is not possible for $\mu$ less than the contact process' critical value, whereas it is possible for $\mu$ greater than that value. In the former case the space and time infected regions are shown to decay exponentially; in the latter case and for $\lambda$ greater than $\mu$, the ratio of the endmost infected site's velocity to that of the contact process is shown to be at most $\lambda / \mu$.
Convergence in law for the branching random walk seen from its tip
Convergence of random series and the rate of convergence of the strong law of large numbers in game-theoretic probability
Convergence in law of the minimum of a branching random walk
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