A certified classification of first-order controlled coaxial telescopes
| Autor: | Drogoul, Audric |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | This paper is devoted to an intrinsic geometrical classification of three-mirror telescopes. The problem is formulated as the study of connected components of a semi-algebraic set that is real solutions of a set of polynomial equations under polynomial inequalities. Under first order approximation, we give the general expression of the transfer matrix of a general optical system composed by N mirrors. Thanks to this representation, for focal telescopes, we express focal, null Petzval's curvature and telecentricity conditions as polynomials equations depending on the inter-mirror distances and mirror magnifications. Eventually, the set of admissible focal telescopes is written as real solutions of aforementioned polynomial equations under non degenerating conditions that are non-null curvatures and non-null magnifications. The set of admissibile afocal telescopes is written analogously. Then, in order to study the topology of these sets, we address the problem of counting and describe their connected components. To achieve this, we consider the canonical projection on a well-chosen parameter space and we split the semi-algebraic set w.r.t the locus of the critical points of the projection restricted to this set. Then, we show that each part projects homeomorphically for N = 3 and we obtain the connected components of the initial set by merging those of each part through the set of critical points of the introduced projection. Besides, in that case, we give the semi-algebraic description of the connected components of the initial set and introduce a topological invariant and a nomenclature which encodes the invariant topological/optical features of optical configurations lying in the same connected component. Comment: 31 pages,7 figures |
| Databáze: | arXiv |
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