@Article{CiCP-31-331, author = {Cai , MinKharazmi , EhsanLi , Changpin and Karniadakis , George Em}, title = {Fractional Buffer Layers: Absorbing Boundary Conditions for Wave Propagation}, journal = {Communications in Computational Physics}, year = {2022}, volume = {31}, number = {2}, pages = {331--369}, abstract = {
We develop fractional buffer layers (FBLs) to absorb propagating waves without reflection in bounded domains. Our formulation is based on variable-order spatial fractional derivatives. We select a proper variable-order function so that dissipation is induced to absorb the coming waves in the buffer layers attached to the domain. In particular, we first design proper FBLs for the one-dimensional one-way and two-way wave propagation. Then, we extend our formulation to two-dimensional problems, where we introduce a consistent variable-order fractional wave equation. In each case, we obtain the fully discretized equations by employing a spectral collocation method in space and Crank-Nicolson or Adams-Bashforth method in time. We compare our results with a finely tuned perfectly matched layer (PML) method and show that the proposed FBL is able to suppress reflected waves including corner reflections in a two-dimensional rectangular domain. We also demonstrate that our formulation is more robust and uses less number of equations.
}, issn = {1991-7120}, doi = {https://doi.org/10.4208/cicp.OA-2021-0063}, url = {http://global-sci.org/intro/article_detail/cicp/20209.html} }