`PolderTensor`

The parameters used to define a Polder tensor.

Example

application = cf.Application.getInstance()
project = application:NewProject()

    -- Create an anisotropic 3D medium using a Polder tensor definition

properties = cf.AnisotropicDielectric.GetDefaultProperties()
properties.TensorDescription = cf.Enums.TensorDescriptionMethodEnum.PolderTensor
-- Dielectric modelling
properties.PolderTensor.RelativePermittivity = "14.5"
properties.PolderTensor.LossTangent = "0.0"
-- Magnetic medium properties
properties.PolderTensor.SaturationMagnetisation = "650.0"
properties.PolderTensor.LineWidth = "0.0"
-- Magnetostatic bias field
properties.PolderTensor.DCBiasField = "220.0"
properties.PolderTensor.FieldDirection = cf.Enums.MagnetostaticFieldDirectionEnum.ZDirected
anisotropicDielectric = project.Definitions.Media.AnisotropicDielectric:AddAnisotropicDielectric(properties)

    -- Change the colour to Cyan

anisotropicDielectric.Colour = "#00FFFF"

Inheritance

The PolderTensor object is derived from the CompositeValue object.

Usage locations

The PolderTensor object can be accessed from the following locations:

Methods
- PolderTensorList object has method Append().
- PolderTensorList object has method Get(number).

Property List

DCBiasField: The magnetic bias field applied to the 3D anisotropic medium. This value is given in Oersted. The direction is defined using the FieldDirection enumeration property. (Read/Write ParametricExpression)
FieldDirection: The orientation of the DCBiasField. (Read/Write MagnetostaticFieldDirectionEnum)
LineWidth: The line width or delta H represents the rate that the precessional mode, in the biased ferrite, will decay when the excitation is removed. This is measured in Oersted. (Read/Write ParametricExpression)
LossTangent: Dielectric loss tangent value. (Read/Write ParametricExpression)
RelativePermittivity: Dielectric relative permittivity value. (Read/Write ParametricExpression)
SaturationMagnetisation: The magnetisation value at which all the magnetic dipole moments of the material become aligned. (Read/Write ParametricExpression)

Property Details

DCBiasField

The magnetic bias field applied to the 3D anisotropic medium. This value is given in Oersted. The direction is defined using the FieldDirection enumeration property.

Type: ParametricExpression
Access: Read/Write

FieldDirection

The orientation of the DCBiasField.

Type: MagnetostaticFieldDirectionEnum
Access: Read/Write

LineWidth

The line width or delta H represents the rate that the precessional mode, in the biased ferrite, will decay when the excitation is removed. This is measured in Oersted.

Type: ParametricExpression
Access: Read/Write

LossTangent

Dielectric loss tangent value.

Type: ParametricExpression
Access: Read/Write

RelativePermittivity

Dielectric relative permittivity value.

Type: ParametricExpression
Access: Read/Write

SaturationMagnetisation

The magnetisation value at which all the magnetic dipole moments of the material become aligned.

Type: ParametricExpression
Access: Read/Write