Abstract

This paper describes an algorithm for designing objectives with separated components for telescopic and collimation systems. Combinations of various types of optical glasses are presented for objective–apochromats obtained using this algorithm. It is confirmed that inexpensive, easy-to-manufacture glasses can be used to obtain apochromatic correction of the image.

© 2012 OSA

PDF Article

References

  • View by:
  • |
  • |
  • |

  1. G. M. Popov, Modern Astronomical Optics (Nauka, Moscow, 1988).
  2. A. P. Grammatin and E. A. Tsyganok, “Features of the secondary spectrum of the objectives of collimators that operate in the 400–900-nm wavelength region,” Izv. Vyssh. Uchebn. Zaved. Prib. 54, No. 9, 75 (2011).
  3. V. N. Churilovskiĭ, Theory of Chromatism and Third-Order Aberrations (Mashinostroenie, Leningrad, 1968).
  4. V. L. Parko and T. N. Khatsevich, “Apochromatic objective,” Russian Patent No. 2 429 508 (2011).
  5. V. L. Parko and K. L. Parko, “Calculating the APO,” Russian computer program No. 2011612810 (2011).
  6. A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).
  7. D. S. Volosov, Photographic Optics (Iskusstvo, Moscow, 1978).
  8. V. L. Parko, “Method of eliminating longitudinal chromatism in the objectives of telescopic systems,” in Collection of the Materials of the Seventh International Scientific Congress GEO-Siberia-2011 (Novosibirsk, 2011), Vol. 5, Part 1, pp. 15–19.
  9. V. L. Parko and T. N. Khatsevich, “Algorithm for choosing apochromatic pairs of glasses in a multicomponent astronomical objective,” Vestnik SGGA No. 2(13), 69 (2010).

2011 (1)

A. P. Grammatin and E. A. Tsyganok, “Features of the secondary spectrum of the objectives of collimators that operate in the 400–900-nm wavelength region,” Izv. Vyssh. Uchebn. Zaved. Prib. 54, No. 9, 75 (2011).

2010 (1)

V. L. Parko and T. N. Khatsevich, “Algorithm for choosing apochromatic pairs of glasses in a multicomponent astronomical objective,” Vestnik SGGA No. 2(13), 69 (2010).

Apenko, M. I.

A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).

Churilovskii, V. N.

V. N. Churilovskiĭ, Theory of Chromatism and Third-Order Aberrations (Mashinostroenie, Leningrad, 1968).

Dubovik, A. S.

A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).

Dureiko, G. V.

A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).

Grammatin, A. P.

A. P. Grammatin and E. A. Tsyganok, “Features of the secondary spectrum of the objectives of collimators that operate in the 400–900-nm wavelength region,” Izv. Vyssh. Uchebn. Zaved. Prib. 54, No. 9, 75 (2011).

Khatsevich, T. N.

V. L. Parko and T. N. Khatsevich, “Algorithm for choosing apochromatic pairs of glasses in a multicomponent astronomical objective,” Vestnik SGGA No. 2(13), 69 (2010).

Parko, V. L.

V. L. Parko and T. N. Khatsevich, “Algorithm for choosing apochromatic pairs of glasses in a multicomponent astronomical objective,” Vestnik SGGA No. 2(13), 69 (2010).

V. L. Parko, “Method of eliminating longitudinal chromatism in the objectives of telescopic systems,” in Collection of the Materials of the Seventh International Scientific Congress GEO-Siberia-2011 (Novosibirsk, 2011), Vol. 5, Part 1, pp. 15–19.

Popov, G. M.

G. M. Popov, Modern Astronomical Optics (Nauka, Moscow, 1988).

Romanov, D. A.

A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).

Sveshnikova, D. S.

A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).

Tsyganok, E. A.

A. P. Grammatin and E. A. Tsyganok, “Features of the secondary spectrum of the objectives of collimators that operate in the 400–900-nm wavelength region,” Izv. Vyssh. Uchebn. Zaved. Prib. 54, No. 9, 75 (2011).

Volosov, D. S.

D. S. Volosov, Photographic Optics (Iskusstvo, Moscow, 1978).

Zapryagaeva, L. A.

A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).

Zhilkin, A. M.

A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).

Izv. Vyssh. Uchebn. Zaved. Prib. (1)

A. P. Grammatin and E. A. Tsyganok, “Features of the secondary spectrum of the objectives of collimators that operate in the 400–900-nm wavelength region,” Izv. Vyssh. Uchebn. Zaved. Prib. 54, No. 9, 75 (2011).

Vestnik SGGA (1)

V. L. Parko and T. N. Khatsevich, “Algorithm for choosing apochromatic pairs of glasses in a multicomponent astronomical objective,” Vestnik SGGA No. 2(13), 69 (2010).

Other (7)

G. M. Popov, Modern Astronomical Optics (Nauka, Moscow, 1988).

V. N. Churilovskiĭ, Theory of Chromatism and Third-Order Aberrations (Mashinostroenie, Leningrad, 1968).

V. L. Parko and T. N. Khatsevich, “Apochromatic objective,” Russian Patent No. 2 429 508 (2011).

V. L. Parko and K. L. Parko, “Calculating the APO,” Russian computer program No. 2011612810 (2011).

A. S. Dubovik, M. I. Apenko, G. V. Dureĭko, A. M. Zhilkin, L. A. Zapryagaeva, D. A. Romanov, and D. S. Sveshnikova, Applied Optics, A. S. Dubovik, ed. (Nedra, Moscow, 1982).

D. S. Volosov, Photographic Optics (Iskusstvo, Moscow, 1978).

V. L. Parko, “Method of eliminating longitudinal chromatism in the objectives of telescopic systems,” in Collection of the Materials of the Seventh International Scientific Congress GEO-Siberia-2011 (Novosibirsk, 2011), Vol. 5, Part 1, pp. 15–19.

Cited By

OSA participates in CrossRef's Cited-By Linking service. Citing articles from OSA journals and other participating publishers are listed here.

Alert me when this article is cited.