CrossSectionScatteringMatrixSphericalTable Constructor |
Name | Description | |
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SphericalTabularMonostaticCrossSectionScatteringCoefficientCrossSectionScatteringMatrixSphericalTable(Double, ComplexCrossSectionScatteringCoefficient, SphericalTabularMonostaticCrossSectionScatteringCoefficientPolarizationScatteringBasis, NullableDouble) |
Initializes a new instance given an array of cone angles, in radians, and an array of .
This represents a symmetrical pattern about the z-axis. For a given cone angle, the cross section is the same for every clock angle about the z-axis.
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SphericalTabularMonostaticCrossSectionScatteringCoefficientCrossSectionScatteringMatrixSphericalTable(Double, Double, SphericalTabularMonostaticCrossSectionScatteringCoefficientPolarizationScatteringBasis, NullableDouble) |
Initializes a new instance given an array of cone angles, in radians, and an array of real cross section values, in meters squared.
This represents a symmetrical pattern about the z-axis. For a given cone angle, the cross section is the same for every clock angle about the z-axis.
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SphericalTabularMonostaticCrossSectionScatteringCoefficientCrossSectionScatteringMatrixSphericalTable(Double, Double, ComplexCrossSectionScatteringCoefficient, SphericalTabularMonostaticCrossSectionScatteringCoefficientPolarizationScatteringBasis, NullableDouble) |
Initializes an instance given an array of clock angles, an array of cone angles, and a two-dimensional array of
ComplexCrossSectionScatteringCoefficient values. Clock angle is defined as the azimuth angle from the positive x-axis to the
orthogonal projection of the point in the x-y plane. Cone angle is defined as the zenith angle from the positive z-axis to the point. The cross section
values array must be arranged such that the rows of the array represent clock angle cuts through the pattern and
the columns represent cone angle cuts. Therefore, the first dimension of the cross section component values array must be
the same size as the clock angles array and the second dimension of the cross section component values array must be the same
size as the cone angles array. If duplicate clock/cone angle points are found, the first one that is found will be kept and
subsequent clock/cone angle points are ignored. For example, if the clock angle array contains a value of 0 degrees and a value of 360 degrees (same cut through the
sphere) all of the cone angles at clock angle equal to 360 degrees will be ignored.
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SphericalTabularMonostaticCrossSectionScatteringCoefficientCrossSectionScatteringMatrixSphericalTable(Double, Double, Double, SphericalTabularMonostaticCrossSectionScatteringCoefficientPolarizationScatteringBasis, NullableDouble) |
Initializes an instance given an array of clock angles, an array of cone angles, and a two-dimensional array of
real cross section values, in meters squared. Clock angle is defined as the azimuth angle from the positive x-axis to the
orthogonal projection of the point in the x-y plane. Cone angle is defined as the zenith angle from the positive z-axis to the point. The cross section
values array must be arranged such that the rows of the array represent clock angle cuts through the pattern and
the columns represent cone angle cuts. Therefore, the first dimension of the cross section component values array must be
the same size as the clock angles array and the second dimension of the cross section component values array must be the same
size as the cone angles array. If duplicate clock/cone angle points are found, the first one that is found will be kept and
subsequent clock/cone angle points are ignored. For example, if the clock angle array contains a value of 0 degrees and a value of 360 degrees (same cut through the
sphere) all of the cone angles at clock angle equal to 360 degrees will be ignored.
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