Output{ }¶
- Calling sequence
Output{ }
- Functionality
Specifications of the output data and formats.
- Example
Output{ EnergyResolvedPlots = yes EnergyResolvedPlotsMinimumEnergyGridSpacing = 0.5 EnergyResolvedPlotsFullRealSpaceResolutionForCurrent = yes EnergyResolvedGain = yes EnergyResolvedGainForEachPhotonEnergy = yes PlotDispersion = 2 InPlaneKResolvedData = yes FLDFormat = yes VTKFormat = yes GnuplotFormat = yes ScaleWaveFunction = 1.0 SXYZBasis = no WavefunctionComponents = no }
The following keywords are available within this group.
Energy-resolved local density of states, electron density, current density¶
- Calling sequence
Output{ EnergyResolvedPlots }
- Properties
choices:
yes
;no
default:
no
- Functionality
Determines whether to output two-dimensional energy-resolved graphs for the local density of states, electron density, and current density.
EnergyResolvedPlotsMinimumEnergyGridSpacing¶
- Calling sequence
Output{ EnergyResolvedPlotsMinimumEnergyGridSpacing }
- Properties
—
- Functionality
—
EnergyResolvedPlotsFullRealSpaceResolutionForCurrent¶
- Calling sequence
Output{ EnergyResolvedPlotsFullRealSpaceResolutionForCurrent }
- Properties
—
- Functionality
—
EnergyResolvedGain¶
- Calling sequence
Output{ EnergyResolvedGain }
- Properties
choices:
yes
;no
default:
no
- Functionality
Determines whether to output energy-resolved gain spectrum.
EnergyResolvedGainForEachPhotonEnergy¶
- Calling sequence
Output{ EnergyResolvedGainForEachPhotonEnergy }
- Properties
choices:
yes
;no
default:
no
- Functionality
Determines whether to output energy-resolved gain spectrum for each photon energy.
PlotDispersion¶
- Calling sequence
Output{ PlotDispersion }
- Properties
type: \(\mathrm{integer}\)
- Functionality
If
0
, output data at the smallest in-plane k shifted. If1
, output data only at the smallest in-plane k. If2
, output data summed over in-plane k.
InPlaneKResolvedData¶
- Calling sequence
Output{ InPlaneKResolvedData }
- Properties
choices:
yes
;no
default:
no
- Functionality
If
yes
, output in-plane k-resolved data of the wavefunctions, spectral functions, current densities, etc.- Properties
choices:
yes
;no
default:
no
FLDFormat¶
- Calling sequence
Output{ FLDFormat }
- Properties
choices:
yes
;no
default:
yes
- Functionality
If yes, output energy-resolved data in the FLD format.
VTKFormat¶
- Calling sequence
Output{ FLDFormat }
- Properties
choices:
yes
;no
default:
yes
- Functionality
If yes, output energy-resolved data in the VTK format.
GnuplotFormat¶
- Calling sequence
Output{ GnuplotFormat }
- Properties
choices:
yes
;no
default:
yes
- Functionality
If yes, output energy-resolved data in the Gnuplot format.
ScaleWaveFunction¶
- Calling sequence
Output{ ScaleWaveFunction }
- Properties
type: \(\mathrm{real\;number}\)
default:
1.0
- Functionality
Scale the wavefunction outputs by given factor.
WavefunctionComponents¶
- Calling sequence
Output{ WavefunctionComponents }
- Properties
choices:
yes
;no
default:
no
- Functionality
If yes, output the spinor components of the wavefunctions.
SXYZBasis¶
- Calling sequence
Output{ SXYZBasis }
- Properties
choices:
yes
;no
default:
no
- Functionality
If yes, output the wavefunction components in the S-X-Y-Z basis (only effective in the 8-band model).