Scattering{ }¶
- Calling sequence
Scattering{ }
- Functionality
—
- Example
Scattering{ MaterialForScatteringParameters = "well" InterfaceRoughness{ ... } ThreadingDislocations{ ... } AcousticPhononScattering = yes AcousticPhononScatteringEnergyMax = MonochromaticLOPhonon = # TuneLOPhononScattering = # deprecated LOPhononCouplingStrength = LOPhononDeformationPotential = ScreeningTemperatureType = TemperatureOffsetParameter = AccuracySelfConsistentElectronTemperature = ElectronTemperatureForScreening = ImpurityScatteringStrength = AlloyScattering = yes AlloyScatteringStrength = # advanced settings SeparateScattering = AnharmonicityStrength = MinimizeIFRBroadening = ElectronElectronScattering = HomogeneousCoulomb = CoarseGridCoulomb = # TuneElectElectScatteringStrength = # deprecated ElectElectScatteringStrength = PhononDamping = InterfacesCutOff = AugerCoefficient = }
The following keywords are available within this group.
MaterialForScatteringParameters¶
- Calling sequence
Scattering{ MaterialForScatteringParameters }
- Properties
—
- Functionality
—
InterfaceRoughness{ }¶
- Calling sequence
Scattering{ InterfaceRoughness{ } }
- Properties
using: \(\mathrm{\textcolor{ForestGreen}{optional\;within\;the\;scope}}\)
- Functionality
Setting for the interface roughness scattering calculation.
- Example
Scattering{ InterfaceRoughness{ InterfaceWidth = AmplitudeInZ = InterfaceAutoCorrelationType = CorrelationLengthInXY = AxialCorrelationLength = } }
InterfaceRoughness{ InterfaceWidth }¶
- Calling sequence
Scattering{ InterfaceRoughness{ InterfaceWidth } }
- Properties
type: \(\mathrm{real\;number}\)
unit: \(\mathrm{nm}\)
- Functionality
—
InterfaceRoughness{ AmplitudeInZ }¶
- Calling sequence
Scattering{ InterfaceRoughness{ AmplitudeInZ } }
- Properties
type: \(\mathrm{real\;number}\)
unit: \(\mathrm{nm}\)
- Functionality
—
InterfaceRoughness{ InterfaceAutoCorrelationType }¶
- Calling sequence
Scattering{ InterfaceRoughness{ InterfaceAutoCorrelationType } }
- Properties
—
- Functionality
—
InterfaceRoughness{ CorrelationLengthInXY }¶
- Calling sequence
Scattering{ InterfaceRoughness{ CorrelationLengthInXY } }
- Properties
type: \(\mathrm{real\;number}\)
unit: \(\mathrm{nm}\)
- Functionality
—
InterfaceRoughness{ AxialCorrelationLength }¶
- Calling sequence
Scattering{ InterfaceRoughness{ AxialCorrelationLength } }
- Properties
type: \(\mathrm{real\;number}\)
unit: \(\mathrm{nm}\)
- Functionality
—
ThreadingDislocations{ }¶
- Calling sequence
Scattering{ ThreadingDislocations{ } }
- Properties
using: \(\mathrm{\textcolor{ForestGreen}{optional\;within\;the\;scope}}\)
- Functionality
—
- Example
Scattering{ ThreadingDislocations{ Density = FillingFactor = TypePNotN = } }
ThreadingDislocations{ Density }¶
- Calling sequence
Scattering{ ThreadingDislocations{ Density } }
- Properties
—
- Functionality
—
ThreadingDislocations{ FillingFactor }¶
- Calling sequence
Scattering{ ThreadingDislocations{ FillingFactor } }
- Properties
—
- Functionality
—
ThreadingDislocations{ TypePNotN }¶
- Calling sequence
Scattering{ ThreadingDislocations{ TypePNotN } }
- Properties
—
- Functionality
—
PhononDamping¶
- Calling sequence
Scattering{ PhononDamping }
- Properties
—
- Functionality
—
InterfacesCutOff¶
- Calling sequence
Scattering{ InterfacesCutOff }
- Properties
—
- Functionality
—
AugerCoefficient¶
- Calling sequence
Scattering{ AugerCoefficient }
- Properties
type: \(\mathrm{real\;number}\)
unit: \(\mathrm{cm^6/s}\)
- Functionality
Coefficient of the classical model of Auger recombination rate \(Cnnp\) and \(Cnpp\), where \(n\) and \(p\) are local electron and hole densities, respectively. The \(n\)-type and \(p\)-type Auger coefficients are assumed to be the same (cf. Review paper on interband cascade lasers).