A TETHER SYSTEM AT THE L1, L2 COLLINEAR LIBRATION POINTS OF THE MARS-PHOBOS SYSTEM

Trudy MAI Pub Date : 2023-06-05 DOI:10.34759/trd-2022-122-02

V. Aslanov, Daria V. Neryadovskaya

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Abstract

This paper is dedicated to identifying stable equilibrium positions of the tether systems attached to the L1 or L2 libration points of the Mars–Phobos system. The orbiting spacecraft deploying the tether is at the L1 or L2 libration point and is held at one of these unstable points by the low thrust of its engines. In this paper, the analysis is performed assuming that the tether length is constant. The equation of motion for the system in the polar reference frame is obtained. The stable equilibrium positions are found and the dependence of the tether angular oscillation period on the tether length is determined. An analytical solution in the vicinity of the stable equilibrium positions for small angles of deflection of the tether from the local vertical is obtained in Jacobi elliptic functions. The comparison of the numerical and analytical solutions for small angles of deflection is performed. The results show that the dependencies of the oscillation period on the length of the tether are fundamentally different for L1 and L2 points. Analytical expressions for the tether tension are derived, and the influence of system parameters on this force is investigated for static and dynamic cases.

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在火星-火卫一系统的l1, l2共线振动点处的系绳系统

本文致力于确定火星-火卫一系统L1或L2振动点上系绳系统的稳定平衡位置。部署缆绳的轨道航天器位于L1或L2振动点，并通过其发动机的低推力保持在其中一个不稳定点上。在本文中，假设锚链长度为常数进行分析。得到了系统在极坐标系下的运动方程。找到了稳定的平衡位置，确定了系绳角振荡周期与系绳长度的关系。在雅可比椭圆函数中，得到了绳系在局部垂直线处小偏转角稳定平衡位置附近的解析解。对小偏转角的数值解和解析解进行了比较。结果表明，在L1点和L2点上，振荡周期对锚索长度的依赖关系是根本不同的。推导了系索张力的解析表达式，并在静态和动态情况下研究了系统参数对系索张力的影响。

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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