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Automated freeform imaging system design with generalized ray tracing and simultaneous multi-surface analytic calculation

Yunfeng Nie, David Shafer, Heidi Ottevaere, Hugo Thienpont, Fabian Duerr

2021Optics Express43 citationsDOIOpen Access PDF

Abstract

Recently, freeform optics has been widely used due to its unprecedented compactness and high performance, especially in the reflective designs for broad-wavelength imaging applications. Here, we present a generalized differentiable ray tracing approach suitable for most optical surfaces. The established automated freeform design framework simultaneously calculates multi-surface coefficients with merely the system geometry known, very fast for generating abundant feasible starting points. In addition, we provide a "double-pass surface" strategy with desired overlap (not mutually centered) that enables a component reduction for very compact yet high-performing designs. The effectiveness of the method is firstly demonstrated by designing a wide field-of-view, fast f-number, four-mirror freeform telescope. Another example shows a two-freeform, three-mirror, four-reflection design with high compactness and cost-friendly considerations with a double-pass spherical mirror. The present work provides a robust design scheme for reflective freeform imaging systems in general, and it unlocks a series of new 'double-pass surface' designs for very compact, high-performing freeform imaging systems.

Topics & Concepts

OpticsComputer scienceRay tracing (physics)Reflection (computer programming)Reflective surfacesCurved mirrorDeformable mirrorMirror imageGeometrical opticsPhysicsSurface (topology)Adaptive opticsMathematicsGeometryProgramming languageAdvanced optical system designOptical Coatings and GratingsAdaptive optics and wavefront sensing
Automated freeform imaging system design with generalized ray tracing and simultaneous multi-surface analytic calculation | Litcius