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Autori principali: Gómez-Limón, J. M., Leiva, R., Ortiz, J. L., Santos-Sanz, P., Kretlow, M., Kilic, Y., Rizos, J. L., Álvarez-Candal, A., Müller, T. G.
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.22296
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author Gómez-Limón, J. M.
Leiva, R.
Ortiz, J. L.
Santos-Sanz, P.
Kretlow, M.
Kilic, Y.
Rizos, J. L.
Álvarez-Candal, A.
Müller, T. G.
author_facet Gómez-Limón, J. M.
Leiva, R.
Ortiz, J. L.
Santos-Sanz, P.
Kretlow, M.
Kilic, Y.
Rizos, J. L.
Álvarez-Candal, A.
Müller, T. G.
contents Context: Trans-Neptunian objects are distant bodies that retain valuable information about the origin and evolution of the Solar System. Many of these objects constitute binary systems. Studying binaries allows us to further characterise this primitive population and is critical for determining mass densities, a key but elusive physical property. Nevertheless, satellite detection can be challenging. Aims: This study aims to constrain the presence of close-in satellites around a selection of ten trans-Neptunian objects, including four known binary systems used for methodology validation. Methods: We developed a methodology independent of primary-secondary separation. We exploit the combination of occultation-derived sizes and thermal emission data from the "TNOs are Cool" Herschel Space Observatory key project. We model the thermal emission from a binary system to explain the thermal excess that cannot be reproduced by a single body of the occultation-derived size. Results: We obtain satisfactory constraints for the validation targets (208996) Achlys, (229762) G!kún{"hòmdímà, (38628) Huya and (174567) Varda. We find that (84522) 2002 TC302, (119951) 2002 KX14, and (307261) Máni are likely binary systems, which was previously unknown. We report size estimates for their putative satellites. For (84922) 2003 VS2, (28978) Ixion, and (470316) 2007 OC10 we find that no sizable satellite is needed to reconcile thermal and occultation data.
format Preprint
id arxiv_https___arxiv_org_abs_2605_22296
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Probing close-in satellites of Trans-Neptunian Objects through thermal and direct size measurements
Gómez-Limón, J. M.
Leiva, R.
Ortiz, J. L.
Santos-Sanz, P.
Kretlow, M.
Kilic, Y.
Rizos, J. L.
Álvarez-Candal, A.
Müller, T. G.
Earth and Planetary Astrophysics
Context: Trans-Neptunian objects are distant bodies that retain valuable information about the origin and evolution of the Solar System. Many of these objects constitute binary systems. Studying binaries allows us to further characterise this primitive population and is critical for determining mass densities, a key but elusive physical property. Nevertheless, satellite detection can be challenging. Aims: This study aims to constrain the presence of close-in satellites around a selection of ten trans-Neptunian objects, including four known binary systems used for methodology validation. Methods: We developed a methodology independent of primary-secondary separation. We exploit the combination of occultation-derived sizes and thermal emission data from the "TNOs are Cool" Herschel Space Observatory key project. We model the thermal emission from a binary system to explain the thermal excess that cannot be reproduced by a single body of the occultation-derived size. Results: We obtain satisfactory constraints for the validation targets (208996) Achlys, (229762) G!kún{"hòmdímà, (38628) Huya and (174567) Varda. We find that (84522) 2002 TC302, (119951) 2002 KX14, and (307261) Máni are likely binary systems, which was previously unknown. We report size estimates for their putative satellites. For (84922) 2003 VS2, (28978) Ixion, and (470316) 2007 OC10 we find that no sizable satellite is needed to reconcile thermal and occultation data.
title Probing close-in satellites of Trans-Neptunian Objects through thermal and direct size measurements
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2605.22296