Meromorphic Solutions of Difference Equations Involving Borel and Nevanlinna Exceptional Values

Abstract

The existence of meromorphic solutions to various difference equations has been extensively studied in recent years, the precise functional forms of such solutions -- particularly when the function and its difference operators share values -- remain largely unexplored. This paper addresses this research gap by investigating the sharing value problem between finite-order meromorphic functions f(z) and their linear difference operators Lcn(f). Specifically, we consider functions having Borel or Nevanlinna exceptional values. We prove not only the existence but also characterize the explicit general meromorphic solutions to the difference equation Lcn(f) Af for A∈C\0\. To validate our main results and demonstrate the necessity of our conditions, we provide several concrete examples. Furthermore, we investigate the existence and nature of both rational and transcendental meromorphic solutions for the second-order difference equation b2(z)f(z+2η)+b1(z)f(z+η)+b0(z)f(z)=b(z) with polynomial coefficients.