Impacts of Poynting–Robertson Drag and Dynamical Flattening Parameters on Motion around the Triangular Equilibrium Points of the Photogravitational ER3BP

IF 1.6 4区物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS

Advances in Astronomy Pub Date : 2021-02-11 DOI:10.1155/2021/6657500

A. Umar, Aminu Abubakar Hussain

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引用次数: 1

Abstract

Using an analytical and numerical study, this paper investigates the equilibrium state of the triangular equilibrium points L 4 , 5 of the Sun-Earth system in the frame of the elliptic restricted problem of three bodies subject to the radial component of Poynting–Robertson (P–R) drag and radiation pressure factor of the bigger primary as well as dynamical flattening parameters of both primary bodies (i.e., Sun and Earth). The equations of motion are presented in a dimensionless-pulsating coordinate system ξ − η , and the positions of the triangular equilibrium points are found to depend on the mass ratio μ and the perturbing forces involved in the equations of motion. A numerical analysis of the positions and stability of the triangular equilibrium points of the Sun-Earth system shows that the perturbing forces have no significant effect on the positions of the triangular equilibrium points and their stability. Hence, this research work concludes that the motion of an infinitesimal mass near the triangular equilibrium points of the Sun-Earth system remains linearly stable in the presence of the perturbing forces.

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Poyinting–Robertson阻力和动力学展平参数对光引力ER3BP三角平衡点周围运动的影响

本文用解析和数值方法研究了三角形平衡点L4，太阳-地球系统的5，在三个物体的椭圆约束问题的框架下，受较大一次体的Poynting–Robertson（P–R）阻力和辐射压力因子的径向分量以及两个一次体（即太阳和地球）的动力学平坦化参数的影响。运动方程在无量纲脉动坐标系ξ−η中给出，发现三角形平衡点的位置取决于质量比μ和运动方程中涉及的扰动力。对太阳-地球系统三角形平衡点的位置和稳定性的数值分析表明，扰动力对三角形平衡点位置及其稳定性没有显著影响。因此，这项研究工作得出结论，在存在扰动力的情况下，太阳-地球系统三角形平衡点附近的无穷小质量的运动保持线性稳定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Astronomy ASTRONOMY & ASTROPHYSICS-

CiteScore

2.70

自引率

7.10%

发文量

审稿时长

22 weeks

期刊介绍： Advances in Astronomy publishes articles in all areas of astronomy, astrophysics, and cosmology. The journal accepts both observational and theoretical investigations into celestial objects and the wider universe, as well as the reports of new methods and instrumentation for their study.