Sub-Gaussian random variables and Wiman's inequality for analytic functions

IF 1 Q1 MATHEMATICS Carpathian Mathematical Publications Pub Date : 2023-06-30 DOI:10.15330/cmp.15.1.306-314
A. Kuryliak, O. Skaskiv
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Abstract

Let $f$ be an analytic function in $\{z: |z|0)(\forall k\in\mathbb{N})(\forall \lambda\in\mathbb{R})\colon \mathbf{E}(e^{\lambda Z_k})\leq e^{D \lambda^2}$, and such that $(\exists\beta>0)(\exists n_0\in\mathbb{N})\colon \inf\limits_{n\geq n_0}\mathbf{E}|Z_n|^{-\beta}<+\infty.$ It is proved that for every $\delta>0$ there exists a set $E(\delta)\subset [0,R)$ of finite $h$-logarithmic measure (i.e. $\int\nolimits_{E}h(r)d\ln r<+\infty$) such that almost surely for all $r\in(r_0(\omega),R)\backslash E$ we have \[ M_f(r,\omega):=\max\big\{|f(z,\omega)|\colon |z|=r\big\}\leq \sqrt{h(r)}\mu_f(r)\Big(\ln^3h(r)\ln\{h(r)\mu_f(r)\}\Big)^{1/4+\delta}, \] where $h(r)$ is any fixed continuous non-decreasing function on $[0;R)$ such that $h(r)\geq2$ for all $r\in (0,R)$ and $\int^R_{r_{0}} h(r) d\ln r =+\infty$ for some $r_0\in(0,R)$.
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解析函数的亚高斯随机变量和Wiman不等式
设$f$为$\{z: |z|0)(\forall k\in\mathbb{N})(\forall \lambda\in\mathbb{R})\colon \mathbf{E}(e^{\lambda Z_k})\leq e^{D \lambda^2}$中的解析函数,使得$(\exists\beta>0)(\exists n_0\in\mathbb{N})\colon \inf\limits_{n\geq n_0}\mathbf{E}|Z_n|^{-\beta}0$存在一个有限的$h$对数测度(即$\int\nolimits_{E}h(r)d\ln r<+\infty$)的集合$E(\delta)\subset [0,R)$,使得几乎可以肯定,对于所有$r\in(r_0(\omega),R)\backslash E$,我们有\[ M_f(r,\omega):=\max\big\{|f(z,\omega)|\colon |z|=r\big\}\leq \sqrt{h(r)}\mu_f(r)\Big(\ln^3h(r)\ln\{h(r)\mu_f(r)\}\Big)^{1/4+\delta}, \],其中$h(r)$是$[0;R)$上任何固定的连续非递减函数,使得$h(r)\geq2$对所有$r\in (0,R)$, $\int^R_{r_{0}} h(r) d\ln r =+\infty$对某些$r_0\in(0,R)$。
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来源期刊
CiteScore
1.90
自引率
12.50%
发文量
31
审稿时长
25 weeks
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