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Auteurs principaux: Shaikh, Ibtisam, Hasan, Priya, Hasan, S. N.
Format: Preprint
Publié: 2023
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Accès en ligne:https://arxiv.org/abs/2312.05627
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author Shaikh, Ibtisam
Hasan, Priya
Hasan, S. N.
author_facet Shaikh, Ibtisam
Hasan, Priya
Hasan, S. N.
contents In this paper we study the location and stability of the collinear Lagrangian points for the RTBP for the case in which one of the primary bodies is radiating and the other is oblate. We consider the effect of Poynting-Roberson drag and investigate how the location and stability of the Lagrangian points change with changes in the radiation parameter $β$ and oblateness $a$. We apply our results to ten exoplanet systems -- CoRoT-2~b, TOI-1278~b, HAT-P-20~b, Kepler-75~b, WASP- 89~b, TIC 172900988~b, NGTS 9~b, LP 714 - 47~b, WASP- 162~b and XO- 3~b, data of which has been taken from NASA exoplanet archives, with the aim of finding locations in these exoplanet systems where one can detect asteroids, primodial material or seeds where planet formation can take place. We find that the location of the collinear Lagrangian points changes with variation in radiation pressure and oblateness. Further, for all the ten planetary systems, studied in this paper, the Lagrangian points are unstable and can be locations where we expect to find minor planets, asteroids or debris. The unstability of the the Lagrangian points can be a possible cause of relocation and migration of planetesimals.
format Preprint
id arxiv_https___arxiv_org_abs_2312_05627
institution arXiv
publishDate 2023
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spellingShingle Exploring the collinear Lagrangian points of exoplanet systems with P-R drag and oblateness
Shaikh, Ibtisam
Hasan, Priya
Hasan, S. N.
Earth and Planetary Astrophysics
In this paper we study the location and stability of the collinear Lagrangian points for the RTBP for the case in which one of the primary bodies is radiating and the other is oblate. We consider the effect of Poynting-Roberson drag and investigate how the location and stability of the Lagrangian points change with changes in the radiation parameter $β$ and oblateness $a$. We apply our results to ten exoplanet systems -- CoRoT-2~b, TOI-1278~b, HAT-P-20~b, Kepler-75~b, WASP- 89~b, TIC 172900988~b, NGTS 9~b, LP 714 - 47~b, WASP- 162~b and XO- 3~b, data of which has been taken from NASA exoplanet archives, with the aim of finding locations in these exoplanet systems where one can detect asteroids, primodial material or seeds where planet formation can take place. We find that the location of the collinear Lagrangian points changes with variation in radiation pressure and oblateness. Further, for all the ten planetary systems, studied in this paper, the Lagrangian points are unstable and can be locations where we expect to find minor planets, asteroids or debris. The unstability of the the Lagrangian points can be a possible cause of relocation and migration of planetesimals.
title Exploring the collinear Lagrangian points of exoplanet systems with P-R drag and oblateness
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2312.05627