Fixed point indices and periodic points of holomorphic mappings

Details Fixed point indices and periodic points of holomorphic mappings Fixed point indices and periodic points of holomorphic mappings

2005-11-10

arxiv.org/abs/math/0511250v4

Mathematics

Dynamical Systems

26 pages

Scientific paper

Let $\Delta ^{n}$ be the ball $|x|<1$ in the complex vector space $\mathbb{C}% ^{n}$, let $f:\Delta ^{n}\to \mathbb{C}^{n}$ be a holomorphic mapping and let $M$ be a positive integer. Assume that the origin $% 0=(0,..., 0)$ is an isolated fixed point of both $f$ and the $M$-th iteration $f^{M}$ of $f$. Then for each factor $m$ of $M,$ the origin is again an isolated fixed point of $f^{m}$ and the fixed point index $\mu_{f^{m}}(0)$ of $f^{m}$ at the origin is well defined, and so is the (local) Dold's index (see [\ref{Do}]) at the origin:% \begin{equation*} P_{M}(f,0)=\sum_{\tau \subset P(M)}(-1)^{#\tau}\mu_{f^{M:\tau}}(0), \end{equation*}% where $P(M)$ is the set of all primes dividing $M,$ the sum extends over all subsets $\tau $ of $P(M)$, $#\tau $is the cardinal number of $\tau $ and $% M:\tau =M(\prod_{p\in \tau}p)^{-1}$. $P_{M}(f,0)$ can be interpreted to be the number of periodic points of period $M$ of $f$ overlapped at the origin: any holomorphic mapping $% f_{1}:\Delta ^{n}\to \mathbb{C}^{n}$ sufficiently close to $f$ has exactly $P_{M}(f,0)$ distinct periodic points of period $M$ near the origin$%, $ provided that all the fixed points of $f_{1}^{M}$ near the origin are simple. Note that $f$ itself has no periodic point of period $M$ near the origin$.$ According to M. Shub and D. Sullivan's work [\ref{SS}], a necessary condition so that $P_{M}(f,0)\neq 0$ is that the linear part of $f$ at the origin has a periodic point of period $M.$ The goal of this paper is to prove that this condition is sufficient as well for holomorphic mappings.

Affiliated with

Also associated with

No associations

Rating

Fixed point indices and periodic points of holomorphic mappings does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.

If you have personal experience with Fixed point indices and periodic points of holomorphic mappings, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Fixed point indices and periodic points of holomorphic mappings will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFWR-SCP-O-386189