ABCD-systems with singular sub-matrix B

T. Alieva, M.J. Bastiaans

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Abstract

Any first-order optical system (or ABCD-system) can be associated with a linear canonical integral transformation, described by Collins integral as long as the submatrix B is non-singular. To avoid the singular case, Moshinsky and Quesne have shown a decomposition of a symplectic ABCD-matrix with a singular B, as a cascade of two matrices that do not have such a singularity; the way to find these matrices, however, is not easy. In this paper we will show an alternative way to avoid possible difficulties that may arise from a singular submatrix B. Starting with the Iwasawa decomposition of a first-order optical system as a cascade of an ortho-symplectic system (a system that is both symplectic and orthogonal), a magnifier, and a lens, a further decomposition of the ortho-symplectic system is considered for the practically important case that the submatrices A, B, C, and D have dimensions 2 x 2. We propose a decomposition of the ortho-symplectic system in the form of a separable fractional Fourier transformer embedded in between two rotators. The resulting decomposition of the entire first-order optical system then shows a physically attractive way to overcome the singular case in the Collins integral. In particular, we will be able to present the linear canonical integral transformation (whether or not with a singular submatrix B) in the basic form of a separable fractional Fourier transformation; this Fourier transformer then acts on rotated input coordinates, and is followed by a further rotation of the output coordinates, by a magnifier, and by a multiplication with a quadratic phase function (a lens).
Original languageEnglish
Title of host publicationProc. ICOL 2005, the International Conference on Optics and Optoelectronics, Dehradun, India, Paper PP.OIP.1
Place of PublicationDehradun, India
PublisherInstrument Research & Development Establishment
PagesPP.OIP.1-6
Publication statusPublished - 2005

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    Alieva, T., & Bastiaans, M. J. (2005). ABCD-systems with singular sub-matrix B. In Proc. ICOL 2005, the International Conference on Optics and Optoelectronics, Dehradun, India, Paper PP.OIP.1 (pp. PP.OIP.1-6). Dehradun, India: Instrument Research & Development Establishment.