Volume 7, Issue 2, December 2018, Pages: 74-79
Received: Nov. 26, 2018;
Accepted: Dec. 19, 2018;
Published: Jan. 10, 2019
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Vladimir Svishch, Aircraft Control Systems Department, National Aerospace University "Kharkiv Aviation Institute", Kharkiv, Ukraine
The possibility of observing the aberration of light from terrestrial sources is investigated. The effect of the curvature of the wave fronts of the light flux of a terrestrial source on the observability of its light aberration is analyzed. The influence of the curvature of its wave fronts on the compensation of the light aberration of the ground motionless source relative to the observer source is studied. An analysis of the light aberration of the source in the Jung’s interferometer specifies
Aberration of Light from a Terrestrial Source, Optics.
Vol. 7, No. 2,
2018, pp. 74-79.
Copyright © 2018 Authors retain the copyright of this article.
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Lakur P., Appel Ya. Historical Physics. - М-L. GIZ. 1929.
Frankfurt W. I., Frank A. M. Optics of Moving Bodies. – М.: Nаukа, 1972.
Landsberg T. S. General Physics. Optic. – М.: Nаukа, 1976.
Lorentz G. A. The theory of Electrons. – Leipzig. 1916.
Einstein A. Collection of Transactions, Vol.1. – М.: Nаukа, 1963. – P. 313-315, 549.
Zommerfield A. Optic. – IL, 1953.
Svishch V. M. About the Informative Parameters of Michelson Interferometers with the Division of Amplitude and the Wave Front. East European Journal of Physics. – 2018. – No.3 -Vol.5 - P.24-31.
Mandelstam L. Lectures in Optics, Relativity Theory and Quantum Mechanics. – М.: Nаukа, 1972.
Gimmelfarb B. N. To an Explanation of Stellar Aberration in the Theory of Relativity // Uspechi Physicheskich Nauk. – 1953. – Vol. 51.
Svishch V. M. Light aberration in optical anisotropic single-axis (uniaxial) medium. East European Journal of Physics. – 2017.
Lukyanov S. B. Astrologic journal 30, No. 3, 1953, P.302-314.
Idlis G. M. Astrologic journal 30, No. 1, 1954, P.251-259.
Abalakin V. K., Abele M. K., Artyukh Yu. N., Basov N. G., Bronnikov V. N., Ignatenko Yu.V., Kokurin Yu.L., Kurbasov V. V., Lapushka K. K., Lobanov V. F., Masevich A. G., Sukhanovsky A. N., Shilokhvost Yu. P., Shubin S. G., Yatskiv Ya. S. Laser Network Designed For the Moon and Artificial Earth Satellite Ranging. Proceedings of the International Conference on Earth Rotation and the Terrestrial Reference Frame. July 31 - August 2, 1985, Columbus, Ohio. Vol.1. P. 246 – 256.
Tochelnikova-Murri S. A. Stellar aberration and observability of motions that are its cause // Geodesy and cartography. – 1997 – No. 7.
Shtyrkov E. I. Measuring the parameters of the motion of the Earth and the solar system // Vestnik KRAUNC: Sciences about the Earth. – 2005 – No. 2 – vol. 6 – P.135-143.
Shtyrkov E. I. Measurement of the Earth motion parameters in an experiment with a geostationary satellite // Fundamental Problems of Physics, III International Conf. Program & Abstracts, Kazan – 13-18 June 2005 – P.101-102.
Shtyrkov E. I. To the question of experimental verification of some positionsof electrodynamics of locomotive environments, Gravitationand theory of relativity // Kazan, KSU – 1988 – No. 26 – P.133-142.
Shtyrkov E. I. Detection of the influence of the motion of the Earth on the aberration of electromagnetic waves of a geostationary satellite is a new test of the special theory of relativity – email@example.com.
Ignatenko, Yu. V., Tryapitsin, VN, Ignatenko, I.Yu. Measurement of speed aberration in the location of artificial earth satellites. “Problems of Management and Computer Science”, No. 2, 2004, p. 103 - 106.
Ignatenko Yu. V., Tryapitcin V. N., Ignatenko I.Yu. Anomalous deviation of the laser beam in laser-location measurements. Collection of abstracts. VI Ukrainian Conference on Space Research, NCUIKS, Evpatory – September 10, 2006.