A new relaxed weak Galerkin (WG) stabilizer has been introduced for second order elliptic interface problems with low regularity solutions. The stabilizer is generalized from the weak Galerkin method of Wang and Ye by using a new relaxation index to mesh size and the index beta can be tuned according to the regularity of solution. The relaxed stabilization gives rise to a considerable flexibility in treating weak continuity along interior element edges and interface edges. For solutions in Sobolev space Wl+1.p, with l >= 0 and p is an element of (1, 2] rather than the usual case p = 2, we derive convergence orders of the new WG method in the energy and LP norms under some regularity assumptions of the solution and an optimal selection of beta = 1 + 4/p - p can be given in the energy norm. It is recovered for p = 2 that with the choice of beta = 1, error estimates in the energy and L-2 norms are optimal for the source term in the sobolev space L-2. The stabilized WG method can be easily implemented without requiring any sufficiently large penalty factor. In addition, numerical results demonstrate the effectiveness and optimal convergence of the proposed WG method with an over-relaxed factor beta.

• 出版日期2018-6
• 单位兰州大学