Quasi-bielliptic three-body problem

Yi QI; Shi Jie XU

doi:10.1360/SSPMA-2019-0384

Quasi-bielliptic three-body problem

Yi QI^*, Shi Jie XU

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

In this paper, we first proposed the Quasi-Bielliptic Problem (QBEP) in the Sun-Earth-Moon three-body problem. In this model, we assume that the Moon revolves around the Earth in a quasi-elliptic orbit perturbed by the solar gravity, whereas the orbit of the Earth-Moon barycenter around the Sun has been known to be strictly elliptic. In addition, we assumed that these three celestial bodies move in the same orbital plane. The differential equations for the first-order analytical expansion of the lunar quasi-elliptic orbit were derived. Using a computational approach, these differential equations were transformed into a system of linear equations and then solved numerically. The validity of our semianalytical result was testified by comparing with the results of numerical integration. The differences between analytical results of the QBEP and the QBEP have been discussed in detail. The influences of these two eccentricities on analytical results were also investigated.

Original language	English
Article number	079502
Journal	Scientia Sinica: Physica, Mechanica et Astronomica
Volume	50
Issue number	7
DOIs	https://doi.org/10.1360/SSPMA-2019-0384
Publication status	Published - May 2020
Externally published	Yes

Keywords

Quasi-Bielliptic Problem
Restricted four-body problem
Sun-Earth-Moon system

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10.1360/SSPMA-2019-0384

Cite this

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title = "Quasi-bielliptic three-body problem",

abstract = "In this paper, we first proposed the Quasi-Bielliptic Problem (QBEP) in the Sun-Earth-Moon three-body problem. In this model, we assume that the Moon revolves around the Earth in a quasi-elliptic orbit perturbed by the solar gravity, whereas the orbit of the Earth-Moon barycenter around the Sun has been known to be strictly elliptic. In addition, we assumed that these three celestial bodies move in the same orbital plane. The differential equations for the first-order analytical expansion of the lunar quasi-elliptic orbit were derived. Using a computational approach, these differential equations were transformed into a system of linear equations and then solved numerically. The validity of our semianalytical result was testified by comparing with the results of numerical integration. The differences between analytical results of the QBEP and the QBEP have been discussed in detail. The influences of these two eccentricities on analytical results were also investigated.",

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AU - XU, Shi Jie

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N2 - In this paper, we first proposed the Quasi-Bielliptic Problem (QBEP) in the Sun-Earth-Moon three-body problem. In this model, we assume that the Moon revolves around the Earth in a quasi-elliptic orbit perturbed by the solar gravity, whereas the orbit of the Earth-Moon barycenter around the Sun has been known to be strictly elliptic. In addition, we assumed that these three celestial bodies move in the same orbital plane. The differential equations for the first-order analytical expansion of the lunar quasi-elliptic orbit were derived. Using a computational approach, these differential equations were transformed into a system of linear equations and then solved numerically. The validity of our semianalytical result was testified by comparing with the results of numerical integration. The differences between analytical results of the QBEP and the QBEP have been discussed in detail. The influences of these two eccentricities on analytical results were also investigated.

AB - In this paper, we first proposed the Quasi-Bielliptic Problem (QBEP) in the Sun-Earth-Moon three-body problem. In this model, we assume that the Moon revolves around the Earth in a quasi-elliptic orbit perturbed by the solar gravity, whereas the orbit of the Earth-Moon barycenter around the Sun has been known to be strictly elliptic. In addition, we assumed that these three celestial bodies move in the same orbital plane. The differential equations for the first-order analytical expansion of the lunar quasi-elliptic orbit were derived. Using a computational approach, these differential equations were transformed into a system of linear equations and then solved numerically. The validity of our semianalytical result was testified by comparing with the results of numerical integration. The differences between analytical results of the QBEP and the QBEP have been discussed in detail. The influences of these two eccentricities on analytical results were also investigated.

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Quasi-bielliptic three-body problem

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Keywords

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