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Main Authors: Muresan, Alexandra, Persson, Carina, Fridlund, Malcolm
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.23399
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author Muresan, Alexandra
Persson, Carina
Fridlund, Malcolm
author_facet Muresan, Alexandra
Persson, Carina
Fridlund, Malcolm
contents The rich diversity of multi-planetary systems and their architectures is greatly contrasted by the uniformity exhibited within many of these systems. Previous studies have shown that compact Kepler systems tend to exhibit a peas-in-a-pod architecture: Planets in the same system tend to have similar sizes and masses and be regularly spaced in orbits with low eccentricities and mutual inclinations. This work extends on previous research and examines a larger and more diverse sample comprising all the systems with a minimum of three confirmed planets, resulting in 282 systems and 991 planets. We investigated the system architectures, focusing on the orbital spacings between adjacent planets as well as their relationships with the planets' sizes and masses. We also quantified the similarities of the sizes, masses, and spacings of planets within each system, conducting both intra- and inter-system analyses. Our results corroborate previous research showing that planets orbiting the same star tend to be regularly spaced and that pairs of adjacent planets with radii<1 R_Earth predominantly have orbital period ratios (PRs)<2. In contrast to other studies, we identified a significant similarity of adjacent orbital spacings not only at PRs<4 but also at 1.17<PRs<2662. For the systems with transiting planets, we additionally found that the reported correlation between the PRs and the sizes of adjacent planets disappears when planet pairs with R<1 R_Earth are excluded. Furthermore, we examined the data for possible correlations between the intra-system dispersions of orbital spacings and those of the planetary radii and masses. Our findings indicate that these dispersions are uncorrelated for the systems in which all planet pairs have PRs<6, and even for the compact systems where all PRs<2. Notably, planets in the same system can be similarly spaced even if they do not have similar masses or sizes.
format Preprint
id arxiv_https___arxiv_org_abs_2410_23399
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Diversities and similarities exhibited by multi-planetary systems and their architectures: I. Orbital spacings
Muresan, Alexandra
Persson, Carina
Fridlund, Malcolm
Earth and Planetary Astrophysics
The rich diversity of multi-planetary systems and their architectures is greatly contrasted by the uniformity exhibited within many of these systems. Previous studies have shown that compact Kepler systems tend to exhibit a peas-in-a-pod architecture: Planets in the same system tend to have similar sizes and masses and be regularly spaced in orbits with low eccentricities and mutual inclinations. This work extends on previous research and examines a larger and more diverse sample comprising all the systems with a minimum of three confirmed planets, resulting in 282 systems and 991 planets. We investigated the system architectures, focusing on the orbital spacings between adjacent planets as well as their relationships with the planets' sizes and masses. We also quantified the similarities of the sizes, masses, and spacings of planets within each system, conducting both intra- and inter-system analyses. Our results corroborate previous research showing that planets orbiting the same star tend to be regularly spaced and that pairs of adjacent planets with radii<1 R_Earth predominantly have orbital period ratios (PRs)<2. In contrast to other studies, we identified a significant similarity of adjacent orbital spacings not only at PRs<4 but also at 1.17<PRs<2662. For the systems with transiting planets, we additionally found that the reported correlation between the PRs and the sizes of adjacent planets disappears when planet pairs with R<1 R_Earth are excluded. Furthermore, we examined the data for possible correlations between the intra-system dispersions of orbital spacings and those of the planetary radii and masses. Our findings indicate that these dispersions are uncorrelated for the systems in which all planet pairs have PRs<6, and even for the compact systems where all PRs<2. Notably, planets in the same system can be similarly spaced even if they do not have similar masses or sizes.
title Diversities and similarities exhibited by multi-planetary systems and their architectures: I. Orbital spacings
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2410.23399