Energy quantization for Dirac systems over non-collapsed degenerating Einstein manifolds

We study energy quantization for a class of Dirac systems on compact spin Einstein manifolds of dimension \(n\).

For a sequence of solutions to a nonlinear Dirac system with uniformly bounded energy on a fixed spin Riemannian manifold, we first establish an energy identity theorem.

We then investigate the more complicated case of underlying domain manifolds being a sequence of non-collapsed degenerating spin Einstein manifolds.

At an orbifold singular point, three types of bubble spinors can possibly appear, living respectively on \(\mathbb{R}^n\), on a Ricci-flat ALE bubble space, and on the flat cone \(\mathbb{R}^n/\Gamma\).

By developing asymptotic analysis for solutions over degenerating neck regions, we establish that energy identity holds.