Influence of Noncommutativity on the Motion of Sun-Earth-Moon System and the Weak Equivalence Principle

Features of motion of macroscopic body in gravitational field in a space with noncommutativity of coordinates and noncommutativity of momenta are considered in general case when coordinates and momenta of different particles satisfy noncommutative algebra with different parameters of noncommutativit...

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Veröffentlicht in:	International journal of theoretical physics 2018-11, Vol.57 (11), p.3359-3368
Hauptverfasser:	Gnatenko, Kh. P., Tkachuk, V. M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Earth motion Earth-Moon system Elementary Particles Equivalence principle Free fall Gravitation Gravitational fields Mathematical analysis Mathematical and Computational Physics Parameters Physics Physics and Astronomy Quantum Field Theory Quantum Physics Sun Theoretical
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container_title	International journal of theoretical physics
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creator	Gnatenko, Kh. P. Tkachuk, V. M.
description	Features of motion of macroscopic body in gravitational field in a space with noncommutativity of coordinates and noncommutativity of momenta are considered in general case when coordinates and momenta of different particles satisfy noncommutative algebra with different parameters of noncommutativity. Influence of noncommutativity on the motion of three-body Sun-Earth-Moon system is examined. We show that because of noncommutativity the free fall accelerations of the Moon and the Earth toward the Sun in the case when the Moon and the Earth are at the same distance to the source of gravity are not the same even if gravitational and inertial masses of the bodies are equal. Therefore, the Eotvos-parameter is not equal to zero and the weak equivalence principle is violated in noncommutative phase space. We estimate the corrections to the Eotvos-parameter caused by noncommutativity on the basis of Lunar laser ranging experiment results. We obtain that with high precision the ratio of parameter of momentum noncommutativity to mass is the same for different particles.
doi_str_mv	10.1007/s10773-018-3848-6
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We estimate the corrections to the Eotvos-parameter caused by noncommutativity on the basis of Lunar laser ranging experiment results. 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P.</creatorcontrib><creatorcontrib>Tkachuk, V. M.</creatorcontrib><title>Influence of Noncommutativity on the Motion of Sun-Earth-Moon System and the Weak Equivalence Principle</title><title>International journal of theoretical physics</title><addtitle>Int J Theor Phys</addtitle><description>Features of motion of macroscopic body in gravitational field in a space with noncommutativity of coordinates and noncommutativity of momenta are considered in general case when coordinates and momenta of different particles satisfy noncommutative algebra with different parameters of noncommutativity. Influence of noncommutativity on the motion of three-body Sun-Earth-Moon system is examined. We show that because of noncommutativity the free fall accelerations of the Moon and the Earth toward the Sun in the case when the Moon and the Earth are at the same distance to the source of gravity are not the same even if gravitational and inertial masses of the bodies are equal. Therefore, the Eotvos-parameter is not equal to zero and the weak equivalence principle is violated in noncommutative phase space. We estimate the corrections to the Eotvos-parameter caused by noncommutativity on the basis of Lunar laser ranging experiment results. 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We show that because of noncommutativity the free fall accelerations of the Moon and the Earth toward the Sun in the case when the Moon and the Earth are at the same distance to the source of gravity are not the same even if gravitational and inertial masses of the bodies are equal. Therefore, the Eotvos-parameter is not equal to zero and the weak equivalence principle is violated in noncommutative phase space. We estimate the corrections to the Eotvos-parameter caused by noncommutativity on the basis of Lunar laser ranging experiment results. We obtain that with high precision the ratio of parameter of momentum noncommutativity to mass is the same for different particles.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s10773-018-3848-6</doi><tpages>10</tpages></addata></record>
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subjects	Earth motion Earth-Moon system Elementary Particles Equivalence principle Free fall Gravitation Gravitational fields Mathematical analysis Mathematical and Computational Physics Parameters Physics Physics and Astronomy Quantum Field Theory Quantum Physics Sun Theoretical
title	Influence of Noncommutativity on the Motion of Sun-Earth-Moon System and the Weak Equivalence Principle
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