An element $g$ of a group is called reversible if it is conjugate in the
group to its inverse. An element is an involution if it is equal to its
inverse. This paper is about factoring elements as products of reversibles in
the group $\mathfrak{G}_n$ of formal maps of $(\mathbb{C}^n,0)$, i.e.
formally-invertible $n$-tuples of formal power series in $n$ variables, with
complex coefficients. The case $n=1$ was already understood.
  Each product $F$ of reversibles has linear part $L(F)$ of determinant $\pm1$.
The main results are that for $n\ge2$ each map $F$ with det$(L(F))=\pm1$ is the
product of $2+3c$ reversibles, and may also be factored as the product of
$9+6c$ involutions, where $c$ is the smallest integer $\ge \log_2n$.Comment: 20 page

O'Farrell, Anthony G.

Zaitsev, Dmitri

Journal of Algebra

English

arXiv

Anthony G. OʼFarrell

Dmitri Zaitsev

Crossref

Factoring formal maps into reversible or involutive factors

An element g of a group is called reversible if it is conjugate in the group to its inverse.

An element is an involution if it is equal to its inverse. This paper is about factoring elements as

products of reversibles in the group Gn of formal maps of (Cn, 0), i.e. formally-invertible n-tuples

of formal power series in n variables, with complex coefficients. The case n = 1 was already

understood [25].

Each product F of reversibles has linear part L(F) of determinant ±1. The main results are

that for n ≥ 2 each map F with det(L(F)) = ±1 is the product of 2+3 • ceiling(log2 n) reversibles,

and may also be factored as the product of 9 + 6 • ceiling(log2 n) involutions (where the ceiling of

x is the smallest integer ≥ x)

Factoring Formal Maps into Reversible or Involutive Factors

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