[ Identification | Description | Input parameters | Links ]
Ring_h ComponentA stack of conical shells is simulated. Hyperbolic version. To intersect the Wolter I plates we take advatage of the azimuthal symmetry and only consider the radial component of the photon's wavevector. Example: Ring_h( pore_th=0, ring_nr=3, Z0=12, yheight=0.83e-3, mirror_reflec="mirror_coating_unity.txt", R_d=0, size_file="ref_design_breaks.txt")
| Name | Unit | Description | Default | |
| ring_nr | ||||
| pore_th | ||||
| Z0 | m | distance between intersection plane and the focal spot( essentially the focal length). | ||
| yheight | m | Height of the pore. (Thus the inner radius is radius_{m,h}-yheight | ||
| chamferwidth | m | Width of side walls. | 0 | |
| gap | m | gap between intersection with parabolic section and actual plate. | 0 | |
| zdepth | 0 | |||
| mirror_reflec | Data file containing reflectivities of the reflector surface (TOP). | "" | ||
| bottom_reflec | Data file containing reflectivities of the bottom surface (BOTTOM). | "" | ||
| size_file | "" | |||
| R_d | Default reflectivity value to use if no reflectivity file is given. Useful f.i. is one surface is reflecting and the others absorbing. | 1 | ||
| waviness | rad | Waviness of the pore reflecting surface. The slope error is assumed to be uniformly distributed in the interval [-waviness:waviness]. | 0 | |
| longw | If non-zero, waviness is 1D and along the pore axis. | 0 |
| AT ( | , | , | ) RELATIVE | |||
|---|---|---|---|---|---|---|
| ROTATED ( | , | , | ) RELATIVE |
Ring_h.comp.
[ Identification | Description | Input parameters | Links ]
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