Meromorphic functions and linearization phenomena in partial differential equations

Abstract

In this paper, we investigate meromorphic solutions of certain nonlinear partial differential equations in several complex variables involving differential and functional operators. Let f be a non-constant meromorphic function in C, g an entire function in Cn, and h(z)=f(z1+z2+…+zn). We study the equations align* ∂ h(z)∂ zi=a Ggh(z)+bh(z)+c\;\;and\;\;∂ h(z)∂ zi=a(z)Ggh(z)+b(z)h(z)+c(z), align* where z∈Cn, i∈\1,2,…,n\, a(≠ 0), b, c∈C or a(z)( 0), b(z),c(z) are polynomials in Cn, and Ggh(z)=h(g(z),g(z),…,g(z)). The results obtained in the paper, extend previous studies on meromorphic solutions of functional-differential equations to the setting of several complex variables, and further illustrate the rigidity imposed by value distribution properties on nonlinear functional equations.