Saved in:
Bibliographic Details
Main Authors: Carruba, V., Sfair, R., Araujo, R. A., Winter, O. C., Mourão, D. C., Di Ruzza, S., Aljbaae, S., Caritá, G., Domingos, R. C., Alves, A. A.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.15968
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866911031426547712
author Carruba, V.
Sfair, R.
Araujo, R. A.
Winter, O. C.
Mourão, D. C.
Di Ruzza, S.
Aljbaae, S.
Caritá, G.
Domingos, R. C.
Alves, A. A.
author_facet Carruba, V.
Sfair, R.
Araujo, R. A.
Winter, O. C.
Mourão, D. C.
Di Ruzza, S.
Aljbaae, S.
Caritá, G.
Domingos, R. C.
Alves, A. A.
contents Currently, 20 co-orbital asteroids of Venus are known, with only one with an eccentricity below 0.38. This is most likely caused by observational biases since asteroids with larger eccentricities may approach the Earth and are easier to detect. We aim to assess the possible threat that the yet undetected population of Venus co-orbitals may pose to Earth, and investigate their detectability from Earth and space observatories. We used semi-analytical models of the 1:1 mean-motion resonance with Venus and numerical simulations to monitor close encounters with Earth on several co-orbital cycles. We analyzed observability windows and brightness variations for potential Venus co-orbitals as viewed from ground-based telescopes to assess their future detection feasibility with next-generation survey capabilities. There is a range of orbits with e < 0.38, larger at lower inclinations, for which Venus' co-orbitals can pose a collisional hazard to Earth. Current ground-based observations are constrained by periodic observing windows and solar elongation limitations, though the Rubin Observatory may detect some of these objects during favorable configurations. Space missions based on Venus' orbits may be instrumental in detecting Venus' co-orbitals at low eccentricities.
format Preprint
id arxiv_https___arxiv_org_abs_2505_15968
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The invisible threat: assessing the collisional hazard posed by the undiscovered Venus co-orbital asteroids
Carruba, V.
Sfair, R.
Araujo, R. A.
Winter, O. C.
Mourão, D. C.
Di Ruzza, S.
Aljbaae, S.
Caritá, G.
Domingos, R. C.
Alves, A. A.
Earth and Planetary Astrophysics
Currently, 20 co-orbital asteroids of Venus are known, with only one with an eccentricity below 0.38. This is most likely caused by observational biases since asteroids with larger eccentricities may approach the Earth and are easier to detect. We aim to assess the possible threat that the yet undetected population of Venus co-orbitals may pose to Earth, and investigate their detectability from Earth and space observatories. We used semi-analytical models of the 1:1 mean-motion resonance with Venus and numerical simulations to monitor close encounters with Earth on several co-orbital cycles. We analyzed observability windows and brightness variations for potential Venus co-orbitals as viewed from ground-based telescopes to assess their future detection feasibility with next-generation survey capabilities. There is a range of orbits with e < 0.38, larger at lower inclinations, for which Venus' co-orbitals can pose a collisional hazard to Earth. Current ground-based observations are constrained by periodic observing windows and solar elongation limitations, though the Rubin Observatory may detect some of these objects during favorable configurations. Space missions based on Venus' orbits may be instrumental in detecting Venus' co-orbitals at low eccentricities.
title The invisible threat: assessing the collisional hazard posed by the undiscovered Venus co-orbital asteroids
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2505.15968