We consider two spatial branching models on $\mathbb{R}^d$:
branching Brownian motion with a branching law in the domain of normal
attraction of a $1 + \beta$ stable law, $0 < \beta \leq 1$, and the
corresponding high density limit measure valued diffusion. The longtime
behavior of both models depends highly on $\beta$ and $d$. We show that for $d
\leq \frac{2}{\beta}$ the only invariant measure is $\delta_0$, the unit mass
on the empty configuration. Furthermore, we give a precise condition for
convergence toward $\delta_0$. For $d > \frac{2}{\beta}$ it is known that
there exists a family $(\nu_{\theta}, \theta \epsilon [0, \infty))$ of
nontrivial invariant measures. We show that every invariant measure is a convex
combination of the $\nu_{\theta}$. Both results have been known before only
under an additional finite mean assumption. For the critical dimension $d =
\frac{2}{\beta}$ we show that both models display the phenomenon of diffusive
clustering. This means that clusters grow spatially on a random scale. We give
a precise description of the clusters via multiple scale analysis. Our methods
rely mainly on studying sub- and supersolutions of the reaction diffusion
equation $\frac{\partial u}{\partial t} - 1/2 \Delta u + u^{1 + \beta} =
0$.
@article{1022855745,
author = {Klenke, Achim},
title = {Clustering and invariant measures for spatial branching models
with infinite variance},
journal = {Ann. Probab.},
volume = {26},
number = {1},
year = {1998},
pages = { 1057-1087},
language = {en},
url = {http://dml.mathdoc.fr/item/1022855745}
}
Klenke, Achim. Clustering and invariant measures for spatial branching models
with infinite variance. Ann. Probab., Tome 26 (1998) no. 1, pp. 1057-1087. http://gdmltest.u-ga.fr/item/1022855745/