Symmetry breaking for the complex sine-Gordon equation

Abstract

We consider the existence of vortex solutions to the complex sine-Gordon II (CSG2) equation, which can be viewed as an analogy of the Ginzburg-Landau (GL) equation. Using the nontrivial kernels η of the linearized CSG2 equation at the standard degree-2 vortex solution Ψ2, we show that it bifurcating to a one-parameter family of symmetry-breaking solutions Ψ2,α. Explicit formulas of these solutions are also available, from which we propose a new bilinear system for this equation. Our method can be generalized to higher degree case. Nondegenracy and stability of degree-1 solution are also proved. Finally, we formally discuss the Lyapunov-Schmidt reduction procedure for the multivortex solutions of the CSG2 and GL equation.