Mini-moons from horseshoes: A physical characterization of 2022 NX<sub>1</sub> with OSIRIS at the 10.4 m Gran Telescopio Canarias

Marcos, R. de la Fuente; León, J. de; Marcos, C. de la Fuente; Licandro, J.; Serra-Ricart, M.; Cabrera-Lavers, A.

doi:10.1051/0004-6361/202245514

A&A

2023

DOI: 10.1051/0004-6361/202245514

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Mini-moons from horseshoes: A physical characterization of 2022 NX₁ with OSIRIS at the 10.4 m Gran Telescopio Canarias

R. de la Fuente Marcos

J. de León

C. de la Fuente Marcos

et al.

Abstract: Context. The near-Earth orbital space is shared by natural objects and space debris that can be temporarily captured in geocentric orbits. Short-term natural satellites are often called mini-moons. Reflectance spectroscopy can determine the true nature of transient satellites because the spectral signatures of spacecraft materials and near-Earth asteroids (NEAs) are different. The recently discovered object 2022 NX1 follows an Earth-like orbit that turns it into a recurrent but ephemeral Earth companion. It ha… Show more

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Cited by 3 publications

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Temporary Captures in Earth-Moon System: A Taxonomy Design using Machine Learning

Wolfe,

Emami

2024

J Astronaut Sci

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Temporary Captures in Earth-Moon System: A Taxonomy Design using Machine Learning

Wolfe,

Emami

2024

J Astronaut Sci

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Discovery and physical characterization as the first response to a potential asteroid collision: The case of 2023 DZ₂

Popescu,

Văduvescu,

de León

et al. 2023

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Context. Near-Earth asteroids (NEAs) that may evolve into impactors deserve detailed threat assessment studies. Early physical characterization of a would-be impactor may help in optimizing impact mitigation plans. We first detected NEA 2023 DZ2 on 27 February 2023. After that, it was found to have a minimum orbit intersection distance (MOID) with Earth of 0.00005 au as well as an unusually high initial probability of becoming a near-term (in 2026) impactor. Aims. We perform a rapid but consistent dynamical and physical characterization of 2023 DZ2 as an example of a key response to mitigating the consequences of a potential impact. Methods. We used a multi-pronged approach, drawing from various methods (observational-computational) and techniques (spectroscopy-photometry from multiple instruments), and bringing the data together to perform a rapid and robust threat assessment. Results. The visible reflectance spectrum of 2023 DZ2 is consistent with that of an X-type asteroid. Light curves of this object obtained on two different nights give a rotation period P = 6.2743 ± 0.0005 min with an amplitude A = 0.57 ± 0.14 mag. We confirm that although its MOID is among the smallest known, 2023 DZ2 will not impact Earth in the foreseeable future as a result of secular near-resonant behaviour. Conclusions. Our investigation shows that coordinated observation and interpretation of disparate data provides a robust approach from discovery to threat assessment when a virtual impactor is identified. We prove that critical information can be obtained within a few days after the announcement of the potential impactor.

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When the horseshoe fits: Characterizing 2023 FY₃ with the 10.4 m Gran Telescopio Canarias and the Two-meter Twin Telescope

de la Fuente Marcos,

de León

et al. 2023

A&A

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Context. The Arjuna asteroid belt is loosely defined as a diverse group of small asteroids that follow dynamically cold, Earth-like orbits. Most of them are not actively engaged in resonant, co-orbital behavior with Earth. Some of them experience temporary but recurrent horseshoe episodes. Objects in horseshoe paths tend to approach Earth at a low velocity, leading to captures as Earth’s temporary satellites or mini-moons. Four such objects have already been identified: 1991 VG, 2006 RH120, 2020 CD3, and 2022 NX1. Here, we focus on 2023 FY3, a recent finding, the trajectory of which might have a co-orbital status and perhaps lead to temporary captures. Aims. We want to determine the physical properties of 2023 FY3 and explore its dynamical evolution. Methods. We carried out an observational study of 2023 FY3 using the OSIRIS camera spectrograph at the 10.4 m Gran Telescopio Canarias, to derive its spectral class, and time-series photometry obtained with QHY411M cameras and two units of the Two-meter Twin Telescope to investigate its rotational state. N-body simulations were also performed to examine its possible resonant behavior. Results. The visible reflectance spectrum of 2023 FY3 is consistent with that of an S-type asteroid; its light curve gives a rotation period of 9.3±0.6 min, with an amplitude of 0.48±0.13 mag. We confirm that 2023 FY3 roams the edge of Earth’s co-orbital space. Conclusions. Arjuna 2023 FY3, an S-type asteroid and fast rotator, currently exhibits horseshoe-like resonant behavior and in the past experienced mini-moon engagements of the temporarily captured flyby type that may repeat in the future. The spectral type result further confirms that mini-moons are a diverse population in terms of surface composition.

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Mini-moons from horseshoes: A physical characterization of 2022 NX₁ with OSIRIS at the 10.4 m Gran Telescopio Canarias

Cited by 3 publications

References 46 publications

Temporary Captures in Earth-Moon System: A Taxonomy Design using Machine Learning

Temporary Captures in Earth-Moon System: A Taxonomy Design using Machine Learning

Discovery and physical characterization as the first response to a potential asteroid collision: The case of 2023 DZ₂

When the horseshoe fits: Characterizing 2023 FY₃ with the 10.4 m Gran Telescopio Canarias and the Two-meter Twin Telescope

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Mini-moons from horseshoes: A physical characterization of 2022 NX1 with OSIRIS at the 10.4 m Gran Telescopio Canarias

Cited by 3 publications

References 46 publications

Temporary Captures in Earth-Moon System: A Taxonomy Design using Machine Learning

Temporary Captures in Earth-Moon System: A Taxonomy Design using Machine Learning

Discovery and physical characterization as the first response to a potential asteroid collision: The case of 2023 DZ2

When the horseshoe fits: Characterizing 2023 FY3 with the 10.4 m Gran Telescopio Canarias and the Two-meter Twin Telescope

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Product

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Mini-moons from horseshoes: A physical characterization of 2022 NX₁ with OSIRIS at the 10.4 m Gran Telescopio Canarias

Discovery and physical characterization as the first response to a potential asteroid collision: The case of 2023 DZ₂

When the horseshoe fits: Characterizing 2023 FY₃ with the 10.4 m Gran Telescopio Canarias and the Two-meter Twin Telescope