TITLE:
Multipliers and Classification of m-Möbius Transformations
AUTHORS:
Dorin Ghisa, Eric Mikulin
KEYWORDS:
m-Möbius Transformations, Multiplier, Elliptic, Hyperbolic, Parabolic, Loxodromic, Steiner Net
JOURNAL NAME:
Advances in Pure Mathematics,
Vol.12 No.6,
June
30,
2022
ABSTRACT: It is known that any m-Möbius transformation is an ordinary Möbius transformation in every one of its variables when the other variables do not take the values a and 1/a, where a is a parameter defining the respective m-Möbius transformation. For ordinary Möbius transformations having distinct fixed points, the multiplier associated with one of these points completely characterizes the nature of that transformation, i.e. it tells us if it is elliptic, hyperbolic or loxodromic. The purpose of this paper is to show that fixed points exist also for m-Möbius transformations and multipliers associated with them can be computed as well. As in the classical case, the values of those multipliers describe completely the nature of the transformations. The method we used was that of a thorough study of the coefficients of the variables involved, with which occasion we discovered surprising symmetries. These were the results allowing us to prove the main theorem regarding the fixed points of a m-Möbius transformation, which is the key to further developments. Finally we were able to illustrate the geometric aspects of these transformations, making the whole theory as intuitive as possible. It was as opening a window into a space of several complex variables. This allows us to prove that if a bi-Möbius transformation is elliptic or hyperbolic in z1 at a point z2 it will remain the same on a circle or line passing through z2. This property remains true when we switch z1 and z2. The main theorem, dealing with the fixed points of an arbitrary m-Möbius transformation made possible the extension of this result to these transformations.