Limits on Stellar Flybys in the Solar Birth Cluster

Amir Siraj; Christopher F. Chyba; Scott Tremaine

doi:10.3847/2041-8213/ae1025

Limits on Stellar Flybys in the Solar Birth Cluster

Amir Siraj
, Christopher F. Chyba
, Scott Tremaine

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

1 Scopus citations

Abstract

The orbits of small bodies in the outer solar system are particularly sensitive to gravitational perturbations, including stellar flybys. Stellar clusters, with low velocity dispersions and high number densities, can be the source of strong and frequent flybys. As a result, we can infer what properties of the solar birth environment would be incompatible with the structure of the outer solar system observed today. Here, we explore with n-body simulations the implications of the low inclinations (i < 20°) of the distant sednoids (objects with perihelia q > 40 au and semimajor axes a > 400 au) for the properties of the solar birth cluster. We find that the existence of these orbits, if they were in place in the Sun’s birth cluster phase, would limit the product of the stellar number density and the Sun’s residence time in the birth cluster to ≲5 × 10³ Myr pc⁻³, as compared to the weaker limit ≲5 × 10⁴ Myr pc⁻³ implied by the low inclinations of the cold classical Kuiper Belt.

Original language	English (US)
Article number	L4
Journal	Astrophysical Journal Letters
Volume	993
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/ae1025
State	Published - Nov 1 2025

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/2041-8213/ae1025

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title = "Limits on Stellar Flybys in the Solar Birth Cluster",

abstract = "The orbits of small bodies in the outer solar system are particularly sensitive to gravitational perturbations, including stellar flybys. Stellar clusters, with low velocity dispersions and high number densities, can be the source of strong and frequent flybys. As a result, we can infer what properties of the solar birth environment would be incompatible with the structure of the outer solar system observed today. Here, we explore with n-body simulations the implications of the low inclinations (i < 20°) of the distant sednoids (objects with perihelia q > 40 au and semimajor axes a > 400 au) for the properties of the solar birth cluster. We find that the existence of these orbits, if they were in place in the Sun{\textquoteright}s birth cluster phase, would limit the product of the stellar number density and the Sun{\textquoteright}s residence time in the birth cluster to ≲5 × 103 Myr pc−3, as compared to the weaker limit ≲5 × 104 Myr pc−3 implied by the low inclinations of the cold classical Kuiper Belt.",

author = "Amir Siraj and Chyba, \{Christopher F.\} and Scott Tremaine",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

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doi = "10.3847/2041-8213/ae1025",

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TY - JOUR

T1 - Limits on Stellar Flybys in the Solar Birth Cluster

AU - Siraj, Amir

AU - Chyba, Christopher F.

AU - Tremaine, Scott

PY - 2025/11/1

Y1 - 2025/11/1

N2 - The orbits of small bodies in the outer solar system are particularly sensitive to gravitational perturbations, including stellar flybys. Stellar clusters, with low velocity dispersions and high number densities, can be the source of strong and frequent flybys. As a result, we can infer what properties of the solar birth environment would be incompatible with the structure of the outer solar system observed today. Here, we explore with n-body simulations the implications of the low inclinations (i < 20°) of the distant sednoids (objects with perihelia q > 40 au and semimajor axes a > 400 au) for the properties of the solar birth cluster. We find that the existence of these orbits, if they were in place in the Sun’s birth cluster phase, would limit the product of the stellar number density and the Sun’s residence time in the birth cluster to ≲5 × 103 Myr pc−3, as compared to the weaker limit ≲5 × 104 Myr pc−3 implied by the low inclinations of the cold classical Kuiper Belt.

AB - The orbits of small bodies in the outer solar system are particularly sensitive to gravitational perturbations, including stellar flybys. Stellar clusters, with low velocity dispersions and high number densities, can be the source of strong and frequent flybys. As a result, we can infer what properties of the solar birth environment would be incompatible with the structure of the outer solar system observed today. Here, we explore with n-body simulations the implications of the low inclinations (i < 20°) of the distant sednoids (objects with perihelia q > 40 au and semimajor axes a > 400 au) for the properties of the solar birth cluster. We find that the existence of these orbits, if they were in place in the Sun’s birth cluster phase, would limit the product of the stellar number density and the Sun’s residence time in the birth cluster to ≲5 × 103 Myr pc−3, as compared to the weaker limit ≲5 × 104 Myr pc−3 implied by the low inclinations of the cold classical Kuiper Belt.

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Limits on Stellar Flybys in the Solar Birth Cluster

Abstract

All Science Journal Classification (ASJC) codes

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