General tab
 SIMULATION REGION: Simulation region that the solver will use.
Mesh tab
Global Mesh Constraints
 EDGES PER WAVELENGTH: The minimum number of edges per wavelength of a triangle (in 2D) used in the mesh.
 REFINE BASED ON MATERIAL PROPERTIES: If checked (default setting), the effective wavelength in the material (\( λ_0/n \) ) is used. Otherwise, the solver will use the wavelength of light in vacuum for all material regions.
 POLYNOMIAL ORDER: Set the order of the basis function in the finiteelement solver. A higher order basis function allows to resolve nonlinear variations in the electric field better even with a coarser mesh.
Advanced Options (2D simulations only)
 Geometry Options
 DEFLECTION TOLERANCE (UM): Controls how curved surfaces are broken up into multiple linear segments. A smaller deflection tolerance will force the geometry builder to break up a curved surface into smaller segments.
 Mesh Options
 TRIANGLE QUALITY: The quality of mesh triangle, defined the minimum angle used in the triangular mesh cells. The higher the angle, the higher the quality of the triangle.
Modal Analysis tab
 SWEEP TYPE:
 SINGLE: calculates the modes at a single frequency or wavelength.
 FREQUENCY: the frequency at which the modes are solved for.
 WAVELENGTH: the wavelength at which the modes are solved for.
 SINGLE: calculates the modes at a single frequency or wavelength.
 NUMBER OF TRIAL MODES: the number of modes to be calculated.
 SEARCH:
 NEAR N: Allows you to look for modes near a desired effective index.
 USE MAX INDEX: Search for modes near the maximum refractive index found in the meshed cross section (real part only).
 N: Specify the target effective index (complex).
 NEAR N: Allows you to look for modes near a desired effective index.
Advanced tab
Global Solver Controls
 MULTITHREADING: If enabled, the user can choose to divide up and run the simulation over multiple threads.
Results returned
Once the simulation region has been meshed, the FEEM simulation object returns the mesh grid as a dataset that shows the area of the mesh cells, unique ID of the partitioned regions and the material index.
Category  Name  Description 

grid 
Area 
Area of the finite element mesh cell 
ID 
Distinct ID number given to partitioned regions 

index 
The material index seen by the solver object 
After the simulation has been run successfully, the fields and fundamental properties of the calculated modes are returned as unstructured datasets. The FEEM solver returns the result containing the outlined mode properties with frequency/wavelength and the mode number (1, 2, 3...) as parameters:
Category  Name  Unit  Description 

fields

E 
$$ V/m $$ 
Electric field 
H 
$$ A/m $$ 
Magnetic field 

S 
$$ (A/m)^2 \text{ or } W/m^2 $$ 
Poynting vector 

mode properties

n_eff 

Effective index 
loss 
$$ dB/m $$ 
Propagation loss 
The modes are sorted based on the complex effective index values according to:
 If the real part of the effective index is larger than the imaginary part, then the modes will be sorted based on descending real part.
 If the real part of the effective index is smaller than its imaginary part, then the modes will be sorted based on ascending imaginary part.