RT Journal Article SR Electronic(1) A1 Takekawa, Junichi A1 Mikada, HitoshiYR 2019 T1 Free‐surface implementation in a mesh‐free finite‐difference method for elastic wave propagation in the frequency domain JF Geophysical Prospecting, VO 67 IS 8 SP 2104 OP 2114 DO https://doi.org/10.1111/1365-2478.12825 PB European Association of Geoscientists & Engineers, SN 1365-2478, AB ABSTRACT We present an original implementation of the free‐surface boundary condition in a mesh‐free finite‐difference method for simulating elastic wave propagation in the frequency domain. For elastic wave modelling in the frequency domain, the treatment of free surfaces is a key issue which requires special consideration. In the present study, the free‐surface boundary condition is directly implemented at node positions located on the free‐surface. Flexible nature of the mesh‐free method for nodal distribution enables us to introduce topography into numerical models in an efficient manner. We investigate the accuracy of the proposed implementation by comparing numerical results with an analytical solution. The results show that the proposed method can calculate surface wave propagation even for an inclined free surface with substantial accuracy. Next, we calculate surface wave propagation in a model with a topographic surface using our method, and compare the numerical result with that using the finite‐element method. The comparison shows the excellent agreement with each other. Finally, we apply our method to the SEG foothill model to investigate the effectiveness of the proposed method. Since the mesh‐free method has high flexibility of nodal distribution, the proposed implementation would deal with models of topographic surface with sufficient accuracy and efficiency., UL https://www.earthdoc.org/content/journals/10.1111/1365-2478.12825