HARTLE-THORNE时空中物体运动的绝热理论

Gulnara Sulieva, K. Boshkayev, G. Nurbakyt, H. Quevedo, A. Taukenova, Abylaikhan Tlemissov, Zhanerke Tlemissova, A. Urazalina
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引用次数: 1

摘要

我们在绝热理论的框架内研究了旋转变形物体引力场中测试粒子的运动。为此目的,在后牛顿近似中,在绝热理论有效的情况下,用调和坐标表示的哈特勒-索恩度规被采用。得到了在旋转变形物体赤道面上运行的测试粒子的近日点位移公式。基于近日点位移表达式,我们证明了叠加原理对引力源质量、角动量和四极矩的个别影响是有效的。所得公式应用于太阳系内行星。结果与观测数据吻合较好。太阳角矩和四极矩的修正对近日点位移的影响不大。总的来说,它证明了绝热理论,以及它的简单性,导致正确的结果,在极限情况下,这些结果与文献报道的结果相对应。
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ADIABATIC THEORY OF MOTION OF BODIES IN THE HARTLE-THORNE SPACETIME
We study the motion of test particles in the gravitational field of a rotating and deformed object within the framework of the adiabatic theory. For this purpose, the Hartle-Thorne metric written in harmonic coordinates is employed in the post-Newtonian approximation where the adiabatic theory is valid. As a result, we obtain the perihelion shift formula for test particles orbiting on the equatorial plane of a rotating and deformed object. Based on the perihelion shift expression, we show that the principle of superposition is valid for the individual effects of the gravitational source mass, angular momentum and quadrupole moment. The resulting formula was applied to the inner planets of the Solar system. The outcomes are in a good agreement with observational data. It was also shown that the corrections related to the Sun's angular moment and quadrupole moment have little impact on the perihelion shift. On the whole, it was demonstrated that the adiabatic theory, along with its simplicity, leads to correct results, which in the limiting cases correspond to the ones reported in the literature.
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CiteScore
0.30
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0.00%
发文量
11
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