Projects complete complex vector fields to specific locations. It is expected to be correct down to distances on the order of one wavelength. The projections from multiple monitors can be added to create a total far field projection  see Projections from a monitor box .
farfieldexact projects any surface fields to a series of points defined by vector lists. The x,y, z coordinates of each evaluation point are taken elementbyelement from the vector lists. i.e., the ith point in a 2D simulation would be at [x(i),y(i)]. This command can return either the E field or the E and H fields of the projection.
3D
Vectors lists x,y,z must have the same length L or be length 1. When only the E field is returned, the data is returned in a matrix of dimension Lx3. The first index represents positions defined by one element from each of x,y, z. [x(i),y(i),z(i)]; the second index represents Ex, Ey, and Ez. When both E and H fields are returned, the data is returned as a dataset with the E and H fields packaged with the corresponding x,y,z and frequency/wavelength.
2D
Vector lists x, y must have the same length L or be length 1. When only the E field is returned, the data is returned in the form of a matrix that is of dimension Lx3. The first index represents positions defined by one element from each of x,y. [x(i),y(i)]; The second index represents Ex, Ey, and Ez. When both E and H fields are returned, the data is returned as a dataset with the E and H fields packaged with the corresponding x,y, and frequency/wavelength.
Syntax 
Description 

out = farfieldexact("mname", x, y, f, index); 
2D far field exact projection. Returns E field only. 
out = farfieldexact(dataset, x, y, f, index); 
2D far field exact projection. Returns E field only. 
out = farfieldexact("mname", x, y, opt); 
2D far field exact projection. Returns E field or E and H fields. Refer to the following table for the options. 
out = farfieldexact(dataset, x, y, opt); 
2D far field exact projection. Returns E field or E and H fields. Refer to the following table for the options. 
out = farfieldexact("mname", x, y, z, f, index); 
3D far field exact projection. Returns E field only. 
out = farfieldexact(dataset, x, y, z, f, index); 
3D far field exact projection. Returns E field only. 
out = farfieldexact("mname", x, y, z, opt); 
3D far field exact projection. Returns E field or E and H fields. Refer to the following table for the options 
out = farfieldexact(dataset, x, y, z, opt); 
3D far field exact projection. Returns E field or E and H fields. Refer to the following table for the options 
Parameter 
Default 
Default value 
Type 
Description 

mname 
required 
string 
name of the monitor from which far field is calculated 

dataset 
required 
dataset 
Rectilinear dataset containing both E and H 

x 
required 
vector 
x coordinates of points where far field is calculated. must have length L or 1. 

y 
required 
vector 
y coordinates of points where far field is calculated. must have length L or 1. 

z 
required 
vector 
z coordinates of points where far field is calculated. must have length L or 1. 

f 
optional 
1 
vector 
Index of the desired frequency point. This can be a single number or a vector. Multithreaded projection was introduced since R2016b. 
index 
optional 
value at monitor centre 
number 
The index of the material to use for the projection. 
opt 
optional 
struct 
the 'opt' parameter includes the following options: "field": This parameter is optional. It defines the return field, can either be "E" or "E and H". "f": This parameter is optional. It defines the index of the desired frequency point. This can be a single number or a vector. Multithreaded projection was introduced since R2016b. "index": This parameter is optional. It defines the index of the material to use for the projection. 
Example
This example shows how to calculate E^2 and H^2 on a straight line at y=0, z=1, for x from 1 to 1 meters. For the example of far field projection of a rectilinear dataset see farfield3d.
# Define far field position vector res=100; x=linspace(1,1,res); y=0; z=1; # do far field projection E_H_far=farfieldexact("monitor",x,y,z,{"field":"E and H", "f":1}); E_far = E_H_far.E; H_far = E_H_far.H; E2_far = sum(abs(E_far)^2,2); # E2 = Ex^2 + Ey^2 + Ez^2 H2_far = sum(abs(H_far)^2,2); # H2 = Hx^2 + Hy^2 + Hz^2 # plot results plot(x,E2_far,"x","y","E^2 on line at y=0, z=1"); plot(x,H2_far,"x","y","H^2 on line at y=0, z=1");
This example shows how to sum the results from a box of monitors (typically surrounding a scattering particle).
Note: See the online section on Far field projections for more information on why a negative sign is required on some terms.
phi = linspace(0,360,201); E2_xy = matrix(length(phi)); E2_yz = matrix(length(phi)); x = sin(phi*pi/180); y = cos(phi*pi/180); z = 0; temp = farfieldexact("x2",x,y,z,{"field":"E"}) + farfieldexact("y2",x,y,z,{"field":"E"}) + farfieldexact("z2",x,y,z,{"field":"E"})  farfieldexact("x1",x,y,z,{"field":"E"})  farfieldexact("y1",x,y,z,{"field":"E"})  farfieldexact("z1",x,y,z,{"field":"E"}); E2_xy = sum(abs(temp)^2,2); # E2 = Ex^2 + Ey^2 + Ez^2 plot(phi, E2_xy,"Phi (deg)","E^2","in XY plane");
The following example shows how farfieldexact and farfieldexact3d output data differently.
When x=[1 2], y=[1 2], z=[0],
farfieldexact: The result is a 2*3 matrix. First dimension is position;second is field component. This calculates the far field at the positions [1,1,0] and [2,2,0] .
farfielexact3d: The result is a 2*2*1*3 matrix. First three dimensions are positions; the fourth dimension is field component. This calculates the far field at the positions [x,y,z] = [1,1,0], [1,2,0], [2,1,0], [2,2,0].
x=1:2; y=1:2; z=0; m="monitor"; E_far=farfieldexact(m,x,y,z,{"field":"E"}); ?size(E_far); result: 2 3
See Also
List of commands , farfield2d , farfield3d , farfieldexact2d , farfieldexact3d