MODULE: [[EM.Tempo]]
FUNCTION: Instructs [[EM.Tempo]] to compute the electric, magnetic and total energy and dissipated power of quantities for the entire computational domain in both the time domain as well as energy and power density quantities on all field sensor planes in the frequency domains domain
TO DEFINE A DOMAIN ENERGY -POWER OBSERVABLE:
# Right-click on the '''Domain Energy''' item in the navigation tree of [[EM.Tempo]].
PYTHON COMMAND: Noneset_energy_power(enable)
| 2D real scalar data
| the total energy of the FDTD domain as a function of time
| none
|-
! scope="row" | Domain_Dissipated_Power.DAT
| 2D real scalar data
| the total energy of the FDTD domain as a function of time
| none
|-
! scope="row" | SensorName_Electric_Energy_Density.CAR
| 3D Cartesian real scalar data
| the electric energy density on SensorName plane
| none
|-
! scope="row" | SensorName_Magnetic_Energy_Density.CAR
| 3D Cartesian real scalar data
| the magnetic energy density on SensorName plane
| none
|-
! scope="row" | SensorName_Total_Energy_Density.CAR
| 3D Cartesian real scalar data
| the total energy density on SensorName plane
| none
|-
! scope="row" | SensorName_Dissipated_Power_Density.CAR
| 3D Cartesian real scalar data
| the dissipated power density on SensorName plane
| none
|-
! scope="row" | SensorName_SAR_Density.CAR
| 3D Cartesian real scalar data
| the specific absorption rate density on SensorName plane
| none
|-
! scope="row" | SensorName_Poynting.CAR
| 3D Cartesian complex vector data
| the complex Poynting vector on SensorName plane
| none
|}