Add to ORKGThe regularities of the motion for every test body in photogravitational field of a star, which can significantly di˙er from the regularities of motion of a body in gravitational field, have been obtained. The following e˙ects of STR and GTR to the terms of order v2/c2 have been considered: the light pressure, the Poynting-Robertson e˙ect, the longitudinal and transverse Doppler e˙ect, the increase in mass of the moving test body, the e˙ects of the space-time curvature which arise due to the gravitational fields of the star and gas-dust ball surrounding the star. We have showed that the longitudinal Doppler e˙ect and the aberration of light (the e˙ects of order v/c) lead to the spiral motion of the test body around the star. Taking into account...
The nature of the principle of equivalence is explored. The light ray travel path in an accelerated ...
One of the most subtle points in the modern relativistic models for microarcsecond astrometrical obs...
Abstract. Astrophysical space missions deliver invaluable information about our universe, stellar dy...
The regularities of the motion for every test body in photogravitational field of a star, which can s...
We present a theoretical foundation for relativistic astronomical measurements in curved space-time....
Due to its relatively large eccentricity and proximity to the Sun, Mercury's orbital motion provides...
Modern astrometry is based on angular measurements at the micro-arcsecond level. At this accuracy a ...
The Lorentz covariant theory of precise Doppler measurements (PDM) based on the retarded Liénard-Wie...
Aims. We extend the classical formulation of the dynamical friction effect on a test star by Chandra...
One of the most subtle points in the current relativistic models for microarcsecond astrometrical ob...
This paper analyses the relativistic stellar aberration requirements for the Space Interferometry Mi...
Context. High-precision astrometric and radial-velocity observations require accurate modelling of s...
The motivation of our analysis is to put constraints, beyond making them unlikely, on a variety of N...
In ref. [1] it studied the dynamics of a thin dust radiating shell, endowed with spherical symmetry ...
The nature of the principle of equivalence is explored. The light ray travel path in an accelerated ...
The nature of the principle of equivalence is explored. The light ray travel path in an accelerated ...
One of the most subtle points in the modern relativistic models for microarcsecond astrometrical obs...
Abstract. Astrophysical space missions deliver invaluable information about our universe, stellar dy...
The regularities of the motion for every test body in photogravitational field of a star, which can s...
We present a theoretical foundation for relativistic astronomical measurements in curved space-time....
Due to its relatively large eccentricity and proximity to the Sun, Mercury's orbital motion provides...
Modern astrometry is based on angular measurements at the micro-arcsecond level. At this accuracy a ...
The Lorentz covariant theory of precise Doppler measurements (PDM) based on the retarded Liénard-Wie...
Aims. We extend the classical formulation of the dynamical friction effect on a test star by Chandra...
One of the most subtle points in the current relativistic models for microarcsecond astrometrical ob...
This paper analyses the relativistic stellar aberration requirements for the Space Interferometry Mi...
Context. High-precision astrometric and radial-velocity observations require accurate modelling of s...
The motivation of our analysis is to put constraints, beyond making them unlikely, on a variety of N...
In ref. [1] it studied the dynamics of a thin dust radiating shell, endowed with spherical symmetry ...
The nature of the principle of equivalence is explored. The light ray travel path in an accelerated ...
The nature of the principle of equivalence is explored. The light ray travel path in an accelerated ...
One of the most subtle points in the modern relativistic models for microarcsecond astrometrical obs...
Abstract. Astrophysical space missions deliver invaluable information about our universe, stellar dy...