Abstract

This paper discusses the possibility of creating objectives for spectral optical coherence tomography in the 1260–1360 nm spectral region. It is shown that a single kinoform cannot act as an objective with a well-known value of longitudinal chromatism in this region of the spectrum. The problem thus formulated can be solved only in “hybrid” schemes containing lens elements and kinoform elements.

© 2014 Optical Society of America

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  1. I. P.  Gurov, “Optical coherence tomography: principles, problems, and prospects,” in Problems of Coherent and Nonlinear Optics, I. P.  Gurov, S. A.  Kozlova, eds. (SPbGU ITMO, St. Petersburg, 2004), pp. 6–30.
  2. A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).
  3. D. S.  Volosov, M. A.  Gan, I. I.  Bogatyreva, “Zoom lens–achromat,” Description of author’s certificate SU 1151905 A.

1989 (1)

A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).

Bogatyreva, I. I.

D. S.  Volosov, M. A.  Gan, I. I.  Bogatyreva, “Zoom lens–achromat,” Description of author’s certificate SU 1151905 A.

Gan, M. A.

A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).

D. S.  Volosov, M. A.  Gan, I. I.  Bogatyreva, “Zoom lens–achromat,” Description of author’s certificate SU 1151905 A.

Gorbunova, V. A.

A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).

Grammatin, A. P.

A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).

Gurov, I. P.

I. P.  Gurov, “Optical coherence tomography: principles, problems, and prospects,” in Problems of Coherent and Nonlinear Optics, I. P.  Gurov, S. A.  Kozlova, eds. (SPbGU ITMO, St. Petersburg, 2004), pp. 6–30.

Ivanova, V. M.

A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).

Larina, R. M.

A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).

Perveev, A. F.

A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).

Volosov, D. S.

D. S.  Volosov, M. A.  Gan, I. I.  Bogatyreva, “Zoom lens–achromat,” Description of author’s certificate SU 1151905 A.

Trudy Gos. Opt. Inst. (1)

A. P.  Grammatin, M. A.  Gan, A. F.  Perveev, R. M.  Larina, V. A.  Gorbunova, V. M.  Ivanova, “Microscope objectives with a kinoform element,” Trudy Gos. Opt. Inst. 74, No. 208, 65 (1989).

Other (2)

D. S.  Volosov, M. A.  Gan, I. I.  Bogatyreva, “Zoom lens–achromat,” Description of author’s certificate SU 1151905 A.

I. P.  Gurov, “Optical coherence tomography: principles, problems, and prospects,” in Problems of Coherent and Nonlinear Optics, I. P.  Gurov, S. A.  Kozlova, eds. (SPbGU ITMO, St. Petersburg, 2004), pp. 6–30.

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