Extremes of L\'evy-driven spatial random fields with regularly varying L\'evy measure

Abstract

We consider an infinitely divisible random field indexed by Rd, d∈N, given as an integral of a kernel function with respect to a L\'evy basis with a L\'evy measure having a regularly varying right tail. First we show that the tail of its supremum over any bounded set is asymptotically equivalent to the right tail of the L\'evy measure times the integral of the kernel. Secondly, when observing the field over an appropriately increasing sequence of continuous index sets, we obtain an extreme value theorem stating that the running supremum converges in distribution to the Fr\'echet distribution.