Angular Aberration of Laser Radiation in the Microsatellite “Blitz”
Transactions of IAA RAS, issue 37, 64–67 (2016)
Keywords: microsatellite, electrodynamics of moving media, gradient lenses, Luneberg lens, dispersion equation, the dispersion of the material.
About the paperAbstract
The reflection of light by a new model microsatellite which is moving in low Earth orbit at an altitude of 835 km at a speed of 7500 m/s is calculated in this paper. The satellite is made as a bilayer Luneberg lens with an outer radius of 85 mm. This is the first case when calculations of electromagnetic radiation propagation in the Luneburg lens have been made taking into account the effects of electrodynamics of moving media and optical glass dispersion. It is shown that the movement of the lens leads to an additional deflection. These results allow improvement in the accuracy of determining the coordinates of the satellite and open up new opportunities for modern tests of relativity theory and electrodynamics.
Citation
V. O. Gladyshev, A. A. Tereshin, A. V. Yavorskiy, D. D. Bazleva, V. L. Kauts. Angular Aberration of Laser Radiation in the Microsatellite “Blitz” // Transactions of IAA RAS. — 2016. — Issue 37. — P. 64–67.
@article{gladyshev2016,
abstract = {The reflection of light by a new model microsatellite which is moving in low Earth orbit at an altitude of 835 km at a speed of 7500 m/s is calculated in this paper. The satellite is made as a bilayer Luneberg lens with an outer radius of 85 mm. This is the first case when calculations of electromagnetic radiation propagation in the Luneburg lens have been made taking into account the effects of electrodynamics of moving media and optical glass dispersion. It is shown that the movement of the lens leads to an additional deflection. These results allow improvement in the accuracy of determining the coordinates of the satellite and open up new opportunities for modern tests of relativity theory and electrodynamics.},
author = {V.~O. Gladyshev and A.~A. Tereshin and A.~V. Yavorskiy and D.~D. Bazleva and V.~L. Kauts},
issue = {37},
journal = {Transactions of IAA RAS},
keyword = {microsatellite, electrodynamics of moving media, gradient lenses, Luneberg lens, dispersion equation, the dispersion of the material},
pages = {64--67},
title = {Angular Aberration of Laser Radiation in the Microsatellite “Blitz”},
url = {http://iaaras.ru/en/library/paper/1560/},
year = {2016}
}
TY - JOUR
TI - Angular Aberration of Laser Radiation in the Microsatellite “Blitz”
AU - Gladyshev, V. O.
AU - Tereshin, A. A.
AU - Yavorskiy, A. V.
AU - Bazleva, D. D.
AU - Kauts, V. L.
PY - 2016
T2 - Transactions of IAA RAS
IS - 37
SP - 64
AB - The reflection of light by a new model microsatellite which is moving
in low Earth orbit at an altitude of 835 km at a speed of 7500 m/s is
calculated in this paper. The satellite is made as a bilayer Luneberg
lens with an outer radius of 85 mm. This is the first case when
calculations of electromagnetic radiation propagation in the Luneburg
lens have been made taking into account the effects of
electrodynamics of moving media and optical glass dispersion. It is
shown that the movement of the lens leads to an additional
deflection. These results allow improvement in the accuracy of
determining the coordinates of the satellite and open up new
opportunities for modern tests of relativity theory and
electrodynamics.
UR - http://iaaras.ru/en/library/paper/1560/
ER -