A Novel PML-type Technique for Acoustic Scattering Problems based on A Real Coordinate Transformation

It is known that any {\em real coordinate transformation} (RCT) to compress waves in an unbounded domain into a bounded domain results in infinite oscillations that cannot be resolved by any grid-based method. In this paper, we intend to show that it is viable if the outgoing waves are compressed along the radial direction and the resulting oscillatory pattern is extracted explicitly. We therefore construct a perfectly matched layer (PML)-type technique for domain reduction of wave scattering problems using RCT, termed as real compressed layer (RCL). Different from all existing approaches, the RCL technique has two features: (i) the RCL-equation only involves real-valued coefficients, which is more desirable for computation and analysis; and (ii) the layer is not ``artificial'' in the sense that the computed field in the layer can recover the outgoing wave of the original scattering problem in the unbounded domain. Here we demonstrate the essential idea and performance of the RCL for the two-dimensional Helmholtz problem with a bounded scatterer, but this technique can be extended to three dimensions in a similar setting.