Pm Interior Penalty Nonconforming Finite Element Methods for 2m-th Order PDEs in Rn

Abstract

In general n-dimensional simplicial meshes, we propose a family of interior penalty nonconforming finite element methods for 2m-th order partial differential equations, where m ≥ 0 and n ≥ 1. For this family of nonconforming finite elements, the shape function space consists of polynomials with a degree not greater than m, making it minimal. This family of finite element spaces exhibits natural inclusion properties, analogous to those in the corresponding Sobolev spaces in the continuous case. By applying interior penalty to the bilinear form, we establish quasi-optimal error estimates in the energy norm. Due to the weak continuity of the nonconforming finite element spaces, the interior penalty terms in the bilinear form take a simple form, and an interesting property is that the penalty parameter needs only to be a positive constant of O(1). These theoretical results are further validated by numerical tests.