S-Parameter Variables
This module automatically generates variables for the S-parameters. The port names (use numbers for sweeps to work correctly) determine the variable names. If, for example, there are two ports with the numbers 1 and 2 and Port 1 is the inport, the software generates the variables S11 and S21. S11 is the S-parameter for the reflected wave and S21 is the S-parameter for the transmitted wave. For convenience, two variables for the S-parameters on a dB scale, S11dB and S21dB, are also defined using the following relation:
The model and physics interface names also appear in front of the variable names so they can vary. The S-parameter variables are added to the predefined quantities in appropriate plot lists.
In addition to the S-parameter variables, variables are also added for reflectances, transmittances, and absorptance, as shown in the table below:
iewfd.Rport_i
iewfd.Tport_i
In the table above, ewfd is the tag for the physics interface. This tag can be different for different physics interface instances. N is the name of the port (a number).
In the expressions for the reflectance and the transmittance, it is assumed that the exciting port has the name 1.
When ports with Activate slit condition on interior port enabled and Slit type set to Domain-backed (domain-backed slit ports) are used, the variable ewfd.Atotal is calculated as the sum of all the volume losses and all the surface losses in the physics.
Periodic ports and diffraction order ports represent the plane-wave radiation propagating in certain directions, defined by diffraction order mode numbers. In 3D, two mode numbers are used, for example m and n, whereas in 2D only one mode number, n, is needed. Each periodic port (or diffraction order port) represent one of two possible polarization directions. Thus, for 3D ports and diffraction order ports, the following variables are available:
In the table above, the variables with the suffix 0_0 represents the mode of the exciting periodic port. The variables with the suffix 0_0_orth represent the reflectance/transmittance for the zero-order mode with a polarization that is orthogonal to the exciting periodic port mode. The suffix M_N_ip represents the mode [M,N] with in-plane polarization. Here, M and N are written p1 for the positive +1 mode number and n1 for the negative -1 mode number, etc. Variables with the suffix op represent diffraction orders with out-of-plane polarization. In-plane modes have the polarization in the plane spanned by the mode wave vector and port normal, whereas out-of-plane modes are orthogonal to this plane.
Notice that the port mode numbers M and N are completely unrelated to the port name K.
For 2D, the corresponding diffraction order variables are