УДК: 535.317.2

Apochromatic thermally nonmisadjustable objectives for wide-range multispectral space imaging

Ponin, O.V., Arkhipova, L.N., Demidova, E.A., Tarabukin, V.V., Sharov, А.А.

Publication in Journal of Optical Technology

For Russian citation (Opticheskii Zhurnal):

Понин О.В., Архипова Л.Н., Демидова Е.А., Тарабукин В.В., Шаров А.А. Апохроматические термонерасстраиваемые объективы для широкозахватной мультиспектральной космической съемки // Оптический журнал. 2013. Т. 80. № 4. С. 39–42.

Ponin O.V., Arkhipova L.N., Demidova E.A., Tarabukin V.V., Sharov A.A. Apochromatic thermally nonmisadjustable objectives for wide-range multispectral space imaging [in Russian] // Opticheskii Zhurnal. 2013. V. 80. № 4. P. 39–42.

For citation (Journal of Optical Technology):

O. V. Ponin, A. A. Sharov, L. N. Arkhipova, E. A. Demidova, and V. V. Tarabukin, "Apochromatic thermally nonmisadjustable objectives for wide-range multispectral space imaging," Journal of Optical Technology. 80(4), 230-232 (2013). https://doi.org/10.1364/JOT.80.000230

Abstract:

Objectives have been developed that possess apochromatic correction of the aberrations in a wide spectral region, achieved by using special types of glasses—special crowns and special flints. Passive thermal nonmisadjustability of the optical systems is ensured by the choice of combinations of the focal powers of the lenses and the thermo-optical characteristics of the glasses.

Keywords:

objective, multispectral imaging, apochromatic correction, modulation transfer function

OCIS codes: 220.0220, 220.3620

References:

1. D. S. Volosov, Photographic Optics (Iskusstvo, Moscow, 1971).
2. A. A. Sharov, I. R. Galyavov, O. V. Ponin, and V. P. Kulesh, “Video measurement system for production testing of objectives, using the modulation transfer function,” in Optoelectronic Systems for the Visualization and Processing of Optical Images (TsNII Tsiklon, Moscow, 2007), Vol. 2, pp. 76–82.