Abstract

Two kinds of absorbing boundary conditions for the finite difference BPM are investigated, namely the operation of Berenger layers and the use of a mere nth-order differential relation with constant coefficients (UABC-n). Practical formulas are given for their implementation and their optimization is discussed. Their efficiency is demonstrated in 2-D test problems where the Hadley technique fails. Berenger layers with 5 to 10 points or 6th-order UABC should be useful for most practical problems. The extra numerical cost in 3-D problems should be either near negligible (UABC) or quite moderate (Berenger layers).