The design of a grazing incidence focusing optic obtained from a spiral approximation to multiple nested cones produces an annular image of a point source. The angular size of the annulus depends mainly on the pitch of the winding and the focal length. For a spiral conical approximation to Wolter optics, the effect is magnified by the double reflection. However, if the two conical spirals are wound one clock-wise and the other counter-clock-wise, then the aberration is partially compensated. We use a ray tracing code to evaluate advantages and disadvantages of this optical design for potential applications of a light weight optics technology based on plastic foils that we are currently investigating.
BARBERA M, MINEO T, PERINATI E, SCHNOPPER HW, SPIGA D, TAIBI, A. (2008). Spiral conical approximations to double reflection Wolter optics. In Proc. SPIE, Vol. 7011, pp. 701136-701136-7 (2008). (pp.36-1-36-7) [10.1117/12.790963].
Spiral conical approximations to double reflection Wolter optics
BARBERA, Marco;
2008-01-01
Abstract
The design of a grazing incidence focusing optic obtained from a spiral approximation to multiple nested cones produces an annular image of a point source. The angular size of the annulus depends mainly on the pitch of the winding and the focal length. For a spiral conical approximation to Wolter optics, the effect is magnified by the double reflection. However, if the two conical spirals are wound one clock-wise and the other counter-clock-wise, then the aberration is partially compensated. We use a ray tracing code to evaluate advantages and disadvantages of this optical design for potential applications of a light weight optics technology based on plastic foils that we are currently investigating.File | Dimensione | Formato | |
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