On subexponential tails for the maxima of negatively driven compound renewal and L\'evy processes
Abstract
We study subexponential tail asymptotics for the distribution of the maximum Mt:=u∈[0,t]Xu of a process Xt with negative drift for the entire range of t>0. We consider compound renewal processes with linear drift and L\'evy processes. For both we also formulate and prove the principle of a single big jump for their maxima. The class of compound renewal processes particularly includes Cram\'er-Lundberg risk process.
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