Absorbing Layer

An node (

)adds an absorbing layer to a time-explicit simulation. Absorbing layers are often referred to as sponge layers. The absorbing layers work by combining three techniques: a scaling system, filtering, and simple nonreflecting conditions. The Absorbing Layer node adds a special scaled system, where the scaling effectively slows down the propagating waves. Filtering attenuates and filters out high frequency components of the wave. In the Convected Wave Equation, Time Explicit interface (in the Acoustics Module), you can specify filter parameters in the section of its Settings window. See also Filter Parameters for the Wave Form PDE.

To add an Absorbing Layer any Component, then in the toolbar, click , or right-click the node under the Component and choose . If the nodes under the node are grouped by type, instead right-click

under .

The is the default absorbing layer name.

The default (for the first absorbing layer in the model) is ab. The provides a namespace for variables created by the node. For example, the scaled x coordinate can typically be accessed in equations and postprocessing as ab1.x. See the subnode for a complete list of available variables.

	To display the Equation View node under all nodes creating variables, click the Show button and select Equation View. See also Equation View.

Select a set of domains conforming to the selected geometry type. See Standard Geometry Configurations.

Select a : (the default), , , or .

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If is selected, enter the position of the center of the spherical geometry in the table. For axisymmetric models, only the z coordinate is required since the geometry must be centered on the axis.

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If is selected, enter the position of a point on the cylinder axis in the table. For 3D models, also enter a vector.

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If is selected, fist choose the appropriate for the geometrical configuration. Then for each stretching direction specify a , evaluating to the distance from the inner boundary of the absorbing layer measured in the stretching direction, and the of the domain in the same direction.

Enter expressions for the (SI unit: m) and the (SI unit: m). The default values are 2.0*dGeomChar and 0.25*dGeomChar, respectively, For the layers to work optimally, the filter should not be too aggressive. Moreover, the scaled coordinates in the layer domain should also vary smoothly. To inspect the scaled system, you can plot the coordinate variables x_absorb_ab1, y_absorb_ab1, and z_absorb_ab1 (for an Absorbing Layer node ab1). Using the absorbing layers with the three combined techniques will enable the reduction of spurious reflections by a factor between 100 and 1000 compared to the incident amplitude.