I have been working with the NSC ray-tracer and trying to model a surface that scatters a laser into random polarization and direction- something like a Spectralon surface at normal incidence. The lambertian surface works well with a random polarized light but for some reason when I use polarized radiation the polarization is more or less conserved after reflection. Is there an easy way to create a surface where polarization is not conserved? Can this surface be partially scattering where say ½ the light undergoes specular polarization conserving reflection and the other ½ is scattered (lambertian) and polarization is not conserved?Thanks!Bram
Hi! Is it possible to trace rays from a source to a given plane and then record the x, y, z, A, B, C and 'power' for every ray to a reusable file? I'd want to reuse this ray file as a spatial source for other geometries. I a not looking for a far field solution (like an IES file), I need to preserve possition and angle of the rays as well as direction. Bram
Already have an account? Login
Enter your username or e-mail address. We'll send you an e-mail with instructions to reset your password.
Sorry, we're still checking this file's contents to make sure it's safe to download. Please try again in a few minutes.
Sorry, our virus scanner detected that this file isn't safe to download.