Abstract
Let $Z$ be the first ladder height of a one dimensional random walk $S_n=X_1+\cdots + X_n$ with i.i.d. increments $X_j$ which are in the domain of attraction of a stable law of exponent $\alpha $, $0 x]$ is slowly varying at infinity if and only if $\lim _{n\to \infty } n^{-1}\sum _1^n P[S_k>0]=0$. By a known result this provides a criterion for $S_{T(R)} /R \stackrel{{\rm P}} \longrightarrow \infty $ as $R\to \infty $, where $T(R)$ is the time when $S_n$ crosses over the level $R$ for the first time. The proof mostly concerns the case $\alpha =1$.
Highlights
This paper concerns the one dimensional random walk Sn with i.i.d. increments which are in the domain of attraction of a stable law
In this paper we address a problem concerning the first ladder height of Sn, which we denote by Z
In [17] it is shown that if X itself is subject to the stable law of exponent 1 with skewness parameter in (−1, 0), P [Z > x] is slowly varying
Summary
This paper concerns the one dimensional random walk Sn with i.i.d. increments which are in the domain of attraction of a stable law. Suppose that if α = 1 τn = 0 in (1.1) (as is standard), let Y be a random variable with the limiting stable law and put ρ = P [Y > 0]. In [17] it is shown that if X itself is subject to the stable law of exponent 1 with skewness parameter in (−1, 0) (that corresponds to 0 < p < 1/2), P [Z > x] is slowly varying. The following theorem, the main result of the present work, asserts that the same consequence holds in and only in the above exceptional case, provided Z is proper.
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