27.scatter-metal

1. Description:
  Scattering of a planewave (lambda=0.85 micron,
  propagating along the z-axis) on a metal (Ag) sphere of radius 0.5 micron
  and index n=0.269+5.96i. The sphere is embedded in the incidence
  medium with refractive index n_inc=1.5

Input files:
  parameters1.input
  boundaries.input
  geometry1.input
  material1.input

Output files:
  Ex.bin.out  
  Ey.bin.out
  Ez.bin.out
  Ml.bin.out
  monitor-center-Ag-Lorentz-850.out - computed solution along the z-axis
                                      passing through the center of the sphere

  exact-Ag-850.out      - exact solution |E|^2 as a function of coordinate along
                          the z-axis passing through the center of the sphere               
  exact-in-Ag-850.out   - exact solution |E|^2 inside the sphere only
  exact-out-Ag-850.out  - exact solution |E|^2 outside the sphere only

2. Description:
  Scattering of a planewave (lambda=0.65 micron,
  propagating along the z-axis) on a metal (Al) sphere of radius 0.24 micron
  and index n=2.0+7.0i. The sphere is embedded in the incidence
  medium with refractive index n_inc=1.5

Input files:
  parameters2.input
  boundaries.input
  geometry2.input
  material2.input

Output files:
  Ex.bin.out  
  Ey.bin.out
  Ez.bin.out
  Ml.bin.out
  monitor-center-Al-Debye-650.out - computed solution along the z-axis passing
                                    through the center of the sphere

  exact-Al-650.out      - exact solution |E|^2 as a function of coordinate along
                          the z-axis passing through the center of the sphere               
  exact-in-Al-650.out   - exact solution |E|^2 inside the sphere only
  exact-out-Al-650.out  - exact solution |E|^2 outside the sphere only

 
3. Description:
  Scattering of a planewave (lambda=0.85 micron,
  propagating along the z-axis) on a metal (Ag) sphere of radius 0.5 micron
  and index n=0.269+5.96i. The sphere is embedded in the incidence
  medium with refractive index n_inc=1.5.
  Same as problem 1 above, but with non-uniform grid and cell size of 5 nm near
  the sphere.

Input files:
  parameters3.input
  boundaries.input
  geometry3.input
  material3.input

Output files:
  Ex.bin.out  
  Ey.bin.out
  Ez.bin.out
  Ml.bin.out
  monitor-center-Ag-Lorentz-850-nu.out - computed solution along the z-axis
                                         passing  through the center of the
                                         sphere
  monitor-time-Ag-Lorentz-850-nu.out   - computed time dependent solution
                                         sampled at the point
                                         (x,y,z) = (-10nm, -10nm, 900nm)
                                      

  Ag.fdtd.scatter.r     - computed reflected field distribution in xy-plane
                          at z = 1.7 micron

  Ag.fdtd.scatter1.t    - computed field distribution in xy-plane
                          at z = 0.0 micron
                    
  Ag.fdtd.scatter2.t    - computed field distribution in xy-plane
                          at z = 0.3 micron