EMfield{ }

Calling sequence

EMfield{ }

Functionality

Specifies the electromagnetic field used in photo-assisted transport calculation. Please refer to Photon-assisted transport for model description.

The following keywords are available within this group:


EMmode{ }

Calling sequence

EMfield{ EMmode{ } }

Functionality

Specifies the electromagnetic mode in the cavity.

Example
EMfield{
   EMmode{
      PhotonEnergy = 160
      ElectricField = 0.0
      Intensity = 1e5
   }
}

EMmode{ PhotonEnergy }

Calling sequence

EMfield{ EMmode{ PhotonEnergy } }

Properties
  • type: \(\mathrm{real\;number}\)

  • unit: \(\mathrm{meV}\)

Functionality

Sets the photon energy of the optical mode.


EMmode{ ElectricField }

Calling sequence

EMfield{ EMmode{ ElectricField } }

Properties
  • type: \(\mathrm{real\;number}\)

  • unit: \(\mathrm{V/m}\)

Functionality


EMmode{ Intensity }

Calling sequence

EMfield{ EMmode{ Intensity } }

Properties
  • type: \(\mathrm{real\;number}\)

  • unit: \(\mathrm{W/m^2}\)

Functionality

Sets the light intensity.


EMmode{ Polarization{ } }

Calling sequence

EMfield{ EMmode{ Polarization{ } } }

Functionality

Sets the electric field polarization used for the photon-assisted transport calculation.


EMmode{ Polarization{ Re } }

Calling sequence

EMfield{ EMmode{ Polarization{ Re } } }

Properties
  • type: \(\mathrm{vector\;of\;3\;real\;numbers}\)

  • unit: \(\mathrm{-}\)

Functionality

Specifies the real part of the polarization vector. The complex vector is internally normalized to \(|\epsilon|^2=1\).


EMmode{ Polarization{ Im } }

Calling sequence

EMfield{ EMmode{ Polarization{ Im } } }

Properties
  • type: \(\mathrm{vector\;of\;3\;real\;numbers}\)

  • unit: \(\mathrm{-}\)

Functionality

Specifies the imaginary part of the polarization vector. The complex vector is internally normalized to \(|\epsilon|^2=1\).