The Motion of Out-of-Plane Equilibrium Points in the Elliptic Restricted Three-Body Problem at &lt;i&gt;J&lt;sub&gt;4&lt;/sub&gt;&lt;/i&gt;

Jagadish Singh,Tyokyaa K Richard

doi:10.18052/www.scipress.com/ifsl.17.1

The Motion of Out-of-Plane Equilibrium Points in the Elliptic Restricted Three-Body Problem at <i>J<sub>4</sub></i>

Jagadish Singh, Tyokyaa K Richard

Open Access

https://doi.org/10.18052/www.scipress.com/ifsl.17.1

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Abstract

We have investigated the motion of the out-of-plane equilibrium points within the framework of the Elliptic Restricted Three-Body Problem (ER3BP) at J4 of the smaller primary in the field of stellar binary systems: Xi- Bootis and Sirius around their common center of mass in elliptic orbits. The positions and stability of the out-of-plane equilibrium points are greatly affected on the premise of the oblateness at J4 of the smaller primary, semi-major axis and the eccentricity of their orbits. The positions L6, 7 of the infinitesimal body lie in the xz-plane almost directly above and below the center of each oblate primary. Numerically, we have computed the positions and stability of L6, 7 for the aforementioned binary systems and found that their positions are affected by the oblateness of the primaries, the semi-major axis and eccentricity of their orbits. It is observed that, for each set of values, there exist at least one complex root with positive real part and hence in Lyapunov sense, the stability of the out-of-plane equilibrium points are unstable.

Highlights

Celestial bodies in the general restricted three-body problem are assumed to be spherical, but in nature, several celestial bodies have observed the significant effects of oblateness of their bodies [1,2,3,4,5], have observed the significant effects of oblateness of the bodies
We have investigated the motion of the out-of-plane equilibrium points within the framework of the Elliptic Restricted Three-Body Problem (ER3BP) at JJ4 of the smaller primary in the field of stellar binary systems: Xi- Bootis and Sirius around their common center of mass in elliptic orbits
We have considered the motion of the out-of-plane equilibrium points within the framework of the Elliptic Restricted Three-Body Problem (ER3BP) at JJ4 of the smaller primary in the field of stellar binary systems: Xi- Bootis and Sirius

Summary

Introduction

Celestial bodies in the general restricted three-body problem are assumed to be spherical, but in nature, several celestial bodies have observed the significant effects of oblateness of their bodies [1,2,3,4,5], have observed the significant effects of oblateness of the bodies. Singh and Umar [1], examined the motion of a particle under the influence of an oblate dark degenerate primary and a luminous secondary and the stability of triangular points when both oblate primaries emit light energy simultaneously in the elliptic restricted three-body problem respectively. They found that, in the stellar systems, a planet moving in the field of a binary star system effectively constitutes a three-body system.

Equation of Motion

Positions of Out-of-Plane Equilibrium Points

Stability of Out-of-Plane Equilibrium Points

Numerical Applications

Discussion and Conclusion