Fourier Continuation is used to extend velocity and pressure fields so that a spectral ISPH scheme can enforce general wall boundary conditions while retaining high-order convergence via FFT-based discretization.
230(16):6248--6270
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Review of fuzzy dark matter simulation techniques including governing equations, wave- and fluid-based algorithms, test problems, and public initial condition files for code benchmarking.
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A high-order Fourier Continuation (FC)-based spectral incompressible Smoothed Particle Hydrodynamics (ISPH) scheme for general boundary conditions in wall-bounded domains
Fourier Continuation is used to extend velocity and pressure fields so that a spectral ISPH scheme can enforce general wall boundary conditions while retaining high-order convergence via FFT-based discretization.