-
```
Currently ADDA calculates the scattered intensity for a set of scattering
angles. In certain applications, scattering function is described as a series
of spherical harmonics. Thus, simulation m…
-
@gmao-yzhu, @BenjaminTJohnson , @MingjingTong-NOAA , @emilyhcliu , @gmao-wgu , @quanhualiu, @mingchen36
I just noticed that the Common_RTSolution.f90 in this repository had already tried to adopt s…
-
```
Currently ADDA calculates the scattered intensity for a set of scattering
angles. In certain applications, scattering function is described as a series
of spherical harmonics. Thus, simulation m…
-
```
Currently ADDA calculates the scattered intensity for a set of scattering
angles. In certain applications, scattering function is described as a series
of spherical harmonics. Thus, simulation m…
-
Currently, the incident_angle parameter in model.py only changes the Fresnel reflection and transmission coefficients. In order to correctly account for the effect of the incident angle, the single sc…
-
```
Currently ADDA calculates the scattered intensity for a set of scattering
angles. In certain applications, scattering function is described as a series
of spherical harmonics. Thus, simulation m…
-
```
Currently ADDA calculates the scattered intensity for a set of scattering
angles. In certain applications, scattering function is described as a series
of spherical harmonics. Thus, simulation m…
-
```
Currently ADDA calculates the scattered intensity for a set of scattering
angles. In certain applications, scattering function is described as a series
of spherical harmonics. Thus, simulation m…
-
Calculating 2D scattering patterns from large optically soft particle (like biological cells in liquid) may result in the scattering-field calculation taking most of the time (since iterative solver c…
-
```
Currently ADDA calculates the scattered intensity for a set of scattering
angles. In certain applications, scattering function is described as a series
of spherical harmonics. Thus, simulation m…