Spins and shapes of 11 near-Earth asteroids observed within the NEOROCKS project

P. Fatka; P. Pravec; P. Scheirich; P. Kušnirák; K. Hornoch; H. Kucáková; K. E. Ergashev; M. Souza de Joode; O. A. Burkhonov; S. A. Ehgamberdiev; A. Galád; J. Világi; V. Reddy; R. Dyvig; J. G. Ries; C. Snodgrass; A. Donaldson; N. Peixinho; E. Khalouei

doi:10.1051/0004-6361/202450027

Spins and shapes of 11 near-Earth asteroids observed within the NEOROCKS project

P. Fatka, P. Pravec, P. Scheirich, P. Kušnirák, K. Hornoch, H. Kucáková, K. E. Ergashev, M. Souza de Joode, O. A. Burkhonov, S. A. Ehgamberdiev, A. Galád, J. Világi, V. Reddy, R. Dyvig, J. G. Ries, C. Snodgrass, A. Donaldson, N. Peixinho, E. Khalouei

Planetary Sciences

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

Abstract

Context. The discovery rate of near-Earth asteroids (NEAs) has steadily increased over the past three decades, yet the physical characterization of these objects has not kept pace. Aims. In an effort to help address this gap, we combined targeted photometric observations, archival data, and sparse photometric data from the Asteroid Terrestrial-impact Last Alert System (ATLAS) survey to extract as much information as possible about NEAs’ rotation rates, spin-axis orientations, and shapes. Methods. We selected 17 NEAs with a potential for shape reconstruction and applied the light curve inversion method to derive their sidereal rotation periods, spin-axis directions, and convex shape models. Results. We successfully determined unique spin and shape models for seven NEAs: (5189) 1990 UQ, (6569) Ondaatje, (7025) 1993 QA, (8566) 1996 EN, (86450) 2000 CK₃₃, the Hayabusa2# flyby target (98943) 2001 CC₂₁, and (512245) 2016 AU₈. For an additional four asteroids – (66251) 1999 GJ₂, (137199) 1999 KX₄, (276786) 2004 KD₁, and (495615) 2015 PQ₂₉₁ – we constrained their sidereal periods, spin-axis orientations, and in some cases, their shapes. Conclusions. This study highlights the importance of integrating new photometric data with archival dense light curves and sparse observations to improve the physical characterization of NEAs, even when working with suboptimal datasets. We constructed 11 NEA models, contributing to the limited set of a few dozen models derived from space missions, radar observations, and light curve inversions.

Original language	English (US)
Article number	A139
Journal	Astronomy and astrophysics
Volume	695
DOIs	https://doi.org/10.1051/0004-6361/202450027
State	Published - Mar 1 2025

Keywords

asteroids: individual: near-Earth asteroids
methods: data analysis
methods: observational
minor planets

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1051/0004-6361/202450027

Cite this

Fatka, P., Pravec, P., Scheirich, P., Kušnirák, P., Hornoch, K., Kucáková, H., Ergashev, K. E., de Joode, M. S., Burkhonov, O. A., Ehgamberdiev, S. A., Galád, A., Világi, J., Reddy, V., Dyvig, R., Ries, J. G., Snodgrass, C., Donaldson, A., Peixinho, N., & Khalouei, E. (2025). Spins and shapes of 11 near-Earth asteroids observed within the NEOROCKS project. Astronomy and astrophysics, 695, Article A139. https://doi.org/10.1051/0004-6361/202450027

Fatka, P, Pravec, P, Scheirich, P, Kušnirák, P, Hornoch, K, Kucáková, H, Ergashev, KE, de Joode, MS, Burkhonov, OA, Ehgamberdiev, SA, Galád, A, Világi, J, Reddy, V, Dyvig, R, Ries, JG, Snodgrass, C, Donaldson, A, Peixinho, N & Khalouei, E 2025, 'Spins and shapes of 11 near-Earth asteroids observed within the NEOROCKS project', Astronomy and astrophysics, vol. 695, A139. https://doi.org/10.1051/0004-6361/202450027

@article{b6e028cdd89548d5b45794cc0967bab0,

title = "Spins and shapes of 11 near-Earth asteroids observed within the NEOROCKS project",

abstract = "Context. The discovery rate of near-Earth asteroids (NEAs) has steadily increased over the past three decades, yet the physical characterization of these objects has not kept pace. Aims. In an effort to help address this gap, we combined targeted photometric observations, archival data, and sparse photometric data from the Asteroid Terrestrial-impact Last Alert System (ATLAS) survey to extract as much information as possible about NEAs{\textquoteright} rotation rates, spin-axis orientations, and shapes. Methods. We selected 17 NEAs with a potential for shape reconstruction and applied the light curve inversion method to derive their sidereal rotation periods, spin-axis directions, and convex shape models. Results. We successfully determined unique spin and shape models for seven NEAs: (5189) 1990 UQ, (6569) Ondaatje, (7025) 1993 QA, (8566) 1996 EN, (86450) 2000 CK33, the Hayabusa2# flyby target (98943) 2001 CC21, and (512245) 2016 AU8. For an additional four asteroids – (66251) 1999 GJ2, (137199) 1999 KX4, (276786) 2004 KD1, and (495615) 2015 PQ291 – we constrained their sidereal periods, spin-axis orientations, and in some cases, their shapes. Conclusions. This study highlights the importance of integrating new photometric data with archival dense light curves and sparse observations to improve the physical characterization of NEAs, even when working with suboptimal datasets. We constructed 11 NEA models, contributing to the limited set of a few dozen models derived from space missions, radar observations, and light curve inversions.",

keywords = "asteroids: individual: near-Earth asteroids, methods: data analysis, methods: observational, minor planets",

author = "P. Fatka and P. Pravec and P. Scheirich and P. Ku{\v s}nir{\'a}k and K. Hornoch and H. Kuc{\'a}kov{\'a} and Ergashev, {K. E.} and {de Joode}, {M. Souza} and Burkhonov, {O. A.} and Ehgamberdiev, {S. A.} and A. Gal{\'a}d and J. Vil{\'a}gi and V. Reddy and R. Dyvig and Ries, {J. G.} and C. Snodgrass and A. Donaldson and N. Peixinho and E. Khalouei",

note = "Publisher Copyright: {\textcopyright} The Authors 2025.",

year = "2025",

month = mar,

day = "1",

doi = "10.1051/0004-6361/202450027",

language = "English (US)",

volume = "695",

journal = "Astronomy and astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

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TY - JOUR

T1 - Spins and shapes of 11 near-Earth asteroids observed within the NEOROCKS project

AU - Fatka, P.

AU - Pravec, P.

AU - Scheirich, P.

AU - Kušnirák, P.

AU - Hornoch, K.

AU - Kucáková, H.

AU - Ergashev, K. E.

AU - de Joode, M. Souza

AU - Burkhonov, O. A.

AU - Ehgamberdiev, S. A.

AU - Galád, A.

AU - Világi, J.

AU - Reddy, V.

AU - Dyvig, R.

AU - Ries, J. G.

AU - Snodgrass, C.

AU - Donaldson, A.

AU - Peixinho, N.

AU - Khalouei, E.

PY - 2025/3/1

Y1 - 2025/3/1

N2 - Context. The discovery rate of near-Earth asteroids (NEAs) has steadily increased over the past three decades, yet the physical characterization of these objects has not kept pace. Aims. In an effort to help address this gap, we combined targeted photometric observations, archival data, and sparse photometric data from the Asteroid Terrestrial-impact Last Alert System (ATLAS) survey to extract as much information as possible about NEAs’ rotation rates, spin-axis orientations, and shapes. Methods. We selected 17 NEAs with a potential for shape reconstruction and applied the light curve inversion method to derive their sidereal rotation periods, spin-axis directions, and convex shape models. Results. We successfully determined unique spin and shape models for seven NEAs: (5189) 1990 UQ, (6569) Ondaatje, (7025) 1993 QA, (8566) 1996 EN, (86450) 2000 CK33, the Hayabusa2# flyby target (98943) 2001 CC21, and (512245) 2016 AU8. For an additional four asteroids – (66251) 1999 GJ2, (137199) 1999 KX4, (276786) 2004 KD1, and (495615) 2015 PQ291 – we constrained their sidereal periods, spin-axis orientations, and in some cases, their shapes. Conclusions. This study highlights the importance of integrating new photometric data with archival dense light curves and sparse observations to improve the physical characterization of NEAs, even when working with suboptimal datasets. We constructed 11 NEA models, contributing to the limited set of a few dozen models derived from space missions, radar observations, and light curve inversions.

AB - Context. The discovery rate of near-Earth asteroids (NEAs) has steadily increased over the past three decades, yet the physical characterization of these objects has not kept pace. Aims. In an effort to help address this gap, we combined targeted photometric observations, archival data, and sparse photometric data from the Asteroid Terrestrial-impact Last Alert System (ATLAS) survey to extract as much information as possible about NEAs’ rotation rates, spin-axis orientations, and shapes. Methods. We selected 17 NEAs with a potential for shape reconstruction and applied the light curve inversion method to derive their sidereal rotation periods, spin-axis directions, and convex shape models. Results. We successfully determined unique spin and shape models for seven NEAs: (5189) 1990 UQ, (6569) Ondaatje, (7025) 1993 QA, (8566) 1996 EN, (86450) 2000 CK33, the Hayabusa2# flyby target (98943) 2001 CC21, and (512245) 2016 AU8. For an additional four asteroids – (66251) 1999 GJ2, (137199) 1999 KX4, (276786) 2004 KD1, and (495615) 2015 PQ291 – we constrained their sidereal periods, spin-axis orientations, and in some cases, their shapes. Conclusions. This study highlights the importance of integrating new photometric data with archival dense light curves and sparse observations to improve the physical characterization of NEAs, even when working with suboptimal datasets. We constructed 11 NEA models, contributing to the limited set of a few dozen models derived from space missions, radar observations, and light curve inversions.

KW - asteroids: individual: near-Earth asteroids

KW - methods: data analysis

KW - methods: observational

KW - minor planets

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U2 - 10.1051/0004-6361/202450027

DO - 10.1051/0004-6361/202450027

M3 - Article

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SN - 0004-6361

VL - 695

JO - Astronomy and astrophysics

JF - Astronomy and astrophysics

M1 - A139

ER -

Spins and shapes of 11 near-Earth asteroids observed within the NEOROCKS project

Abstract

Keywords

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