A CLT for the L2 norm of increments of local times of L\'evy processes as time goes to infinity

Abstract

Let X=\Xt,t∈ R+\ be a symmetric L\'evy process with local time \Lxt ; (x,t)∈ R1× R1+\. When the L\'evy exponent () is regularly varying at zero with index 1<β≤ 2, and satisfies some additional regularity conditions, eqnarray* && ∫-∞∞ (Lx+1t- Lxt)2 dx- E(∫-∞∞ (Lx+1t- Lxt)2 dx) t-1(1/t)r5.0tweaksabs && L(8c,1 )1/2(∫-∞ (Lβ,1x)2 dx)1/2 η eqnarray* as t∞, where L,1=\Lxβ, 1 ; x ∈ R1 \ denotes the local time, at time 1, of a symmetric stable process with index β, η is a normal random variable with mean zero and variance one that is independent of Lβ,1, and c,1 is a known constant that depends on .