学术报告(李兵 6.16)

The shrinking target problem for matrix transformations of tori: revisiting the standard problem

发布人:杨晓静 发布日期:2023-05-31
主题
The shrinking target problem for matrix transformations of tori: revisiting the standard problem
活动时间
-
活动地址
腾讯会议 994-856- 086
主讲人
李兵教授 华南理工大学
主持人
李耀强

摘要: Let $T$ be a $d\times d$ matrix with real coefficients. Then $T$ determines a self-map of the $d$-dimensional torus  $\mathbb{T}^d=\mathbb{R}^d/\mathbb{Z}^d$. Let $\{E_n\}_{n\in\mathbb{N}}$ be a sequence of subsets of $\mathbb{T}^d$ and let $W(T,\{E_n\})$ be the set of points $\mathbf{x}\in\T^d$ such that $T^n(\mathbf{x})\in E_n$ for infinitely many $n\in\N$. For a large class of subsets (namely, those satisfying the so called bounded property $({\boldsymbol{\rm B}})$ which includes balls, rectangles,and hyperboloids) we show that the $d$-dimensional Lebesgue measure of the shrinking target set $W(T,\{E_n \})$ is zero (resp. one) if a natural volume sum converges (resp. diverges). In fact, we prove a quantitative form of this zero-one criteria that describes the asymptotic behaviour of the counting function $R(x,N):= \# \big\{1\len\le N:T^{n}(x)\in E_n\}$. The counting result makes use of a general quantitative statement that holds for a large class measure preserving dynamical systems (namely, those satisfying the so called summable-mixing property). We next turn our attention to the Hausdorff dimension of $W(T,\{E_n \})$. In the case the subsets $E_n$ are balls,  rectangles or hyperboloids we obtain precise formulae for the dimension. These shapes correspond, respectively, to the simultaneous, weighted and multiplicative theories of classical Diophantine approximation. The dimension results for balls generalises those obtained in Hill and Velani (1999) for integer
matrices to real matrices. This is joint work with Lingmin Liao, Sanju Velani and Evgeniy Zorin.