УДК: 535.4, 681.7.02-04, 681.787

Technology for fabricating large, high-accuracy, lightened aspheric mirrors with high stability of the surface shape

Abdulkadyrov, M.A., Dobrikov, N.S., Patrikeev, A.P., Patrikeev, V.E., Semenov, A.P.

Publication in Journal of Optical Technology

For Russian citation (Opticheskii Zhurnal):

Абдулкадыров М.А., Добриков Н.С., Патрикеев А.П., Патрикеев В.Е., Семенов А.П. Технология изготовления высокоточных крупногабаритных облегчённых асферических зеркал с высокой стабильностью формы поверхности // Оптический журнал. 2014. Т. 81. № 12. С. 6–15.

Abdulkadyrov M.A., Dobrikov N.S., Patrikeev A.P., Patrikeev V.E., Semenov A.P. Technology for fabricating large, high-accuracy, lightened aspheric mirrors with high stability of the surface shape [in Russian] // Opticheskii Zhurnal. 2014. V. 81. № 12. P. 6–15.

For citation (Journal of Optical Technology):

M. A. Abdulkadyrov, N. S. Dobrikov, A. P. Patrikeev, V. E. Patrikeev, and A. P. Semenov, "Technology for fabricating large, high-accuracy, lightened aspheric mirrors with high stability of the surface shape," Journal of Optical Technology. 81(12), 706-713 (2014). https://doi.org/10.1364/JOT.81.000706

Abstract:

This paper describes the technology for fabricating astronomical and space mirrors from Astrositall, including its properties and the stability of these properties in time, and presents the results of long-term testing of the material.

Keywords:

telescopes, glass ceramics, astrositall, astronomical mirrors, lightened mirror, time and deformation stability

OCIS codes: 220.0220, 220.0230, 220.4610, 350.1260

References:

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