Some harmonic functions for killed Markov branching processes with immigration and culling

Abstract

For a continuous-time Bienaym\'e-Galton-Watson process, X, with immigration and culling, 0 as an absorbing state, call Xq the process that results from killing X at rate q∈ (0,∞), followed by stopping it on extinction or explosion. Then an explicit identification of the relevant harmonic functions of Xq allows to determine the Laplace transforms (at argument q) of the first passage times downwards and of the explosion time for X. Strictly speaking, this is accomplished only when the killing rate q is sufficiently large (but always when the branching mechanism is not supercritical or if there is no culling). In particular, taking the limit q 0 (whenever possible) yields the passage downwards and explosion probabilities for X. A number of other consequences of these results are presented.