Experimental methods and means of protecting space-based optoelectronic systems from mechanical impacts
https://doi.org/10.17586/0021-3454-2023-66-7-585-593
Abstract
Methods of protection of space-bazed optical-electronic systems from meteoroids and space debris are stated. To create protective screens, it is proposed to use a new material - armored glass ceramics. Technical solutions (segmentation of mirrors, elongated hoods, transitional optical blocks) for the protection of optical elements are considered. The developed and manufactured setup for studying damage caused to the working surfaces of optical elements is presented. The setup allows to carry out ballistic impact by throwing elements of various masses and geometries. Results of experiments are presented.
About the Authors
V. M. Medunetskiy
ITMO University
Russian Federation
Russian Federation
Viktor M. Medunetskiy - Dr. Sci., Professor; Faculty of Control Systems and Robotics
St. Petersburg
B. N. Dobryakov
Television Scientific Research Institute
Russian Federation
Russian Federation
Boris N. Dobryakov - Engineer-Technologist
St. Petersburg
S. V. Solk
Scientific Research Institute of Optoelectronic Instrumentation
Russian Federation
Russian Federation
Sergey V. Solk — Dr. Sci.; Deputy Head of Department
Sosnovy Bor, Leningrad region
Yu. Yu. Merkulov
Research and Production Association of Special Materials
Russian Federation
Russian Federation
Yuriy Yu. Merkulov — PhD; Researcher
St. Petersburg
N. M. Silnikov
Research and Production Association of Special Materials
Russian Federation
Russian Federation
Nikita M. Silnikov — PhD; Director
St. Petersburg
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Review
For citations:
Medunetskiy V.M., Dobryakov B.N., Solk S.V., Merkulov Yu.Yu., Silnikov N.M. Experimental methods and means of protecting space-based optoelectronic systems from mechanical impacts. Journal of Instrument Engineering. 2023;66(7):585-593. (In Russ.) https://doi.org/10.17586/0021-3454-2023-66-7-585-593
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