Simultaneous bifurcation of limit cycles for Piecewise Holomorphic systems

Abstract

Let z=f(z) be a holomorphic differential equation with center at p. In this paper we are concerned about studying the piecewise perturbation systems z=f(z)+ε R(z,z), where R(z,z) are complex polynomials defined for Im(z)> 0. We provide an integral expression, similar to an Abelian integral, for the period annulus of p. The zeros of this integral control the bifurcating limit cycles from the periodic orbits of this annular region. This expression is given in terms of the conformal conjugation between z=f(z) and its linearization z=f'(p)z at p. We use this result to control the simultaneous bifurcation of limit cycles of the two annular periods of z= i (z2-1)/2, after both complex and holomorphic piecewise polynomial perturbations. In particular, as far as we know, we provide the first proof of the existence of non nested limit cycles for piecewise holomorphic systems.