Asteroid sizes determined with thermophysical model and stellar occultations

A. Choukroun; A. Marciniak; J. \v{D}urech; J. Per{\l}a; W. Og{\l}oza; R. Szakats; L. Molnar; A. Pal; F. Monteiro; I. Mieczkowska; W. Beisker; D. Agnetti; C. Anderson; S. Andersson; D. Antuszewicz; P. Arcoverde; R.-L. Aubry; P. Bacci; R. Bacci; P. Baruffetti; L. Benedyktowicz; M. Bertini; D. Blazewicz; R. Boninsegna; Zs. Bora; M. Borkowski; E. Bredner; J. Broughton; M. Butkiewicz - B\k{a}k; N. Carlson; G. Casalnuovo; F. Casarramona; Y.-J. Choi; S. Cikota; M. Collins; B. Cseh; G. Cs\"ornyei; H. De Groot; P. Delincak; P. Denyer; R. Dequinze; M. Dogramatzidis; M. Drozdz; R. Duffard; D. Eisfeldt; M. Eleftheriou; C. Ellington; S. Fauvaud; M. Fauvaud; M. Ferrais; M. Filipek; P. Fini; M. Frits; B. G\"ahrken; G. Galli; D. Gault; S. Geier; B. Gimple; J. Golonka; L. Grazzini; J. Grice; K. Guhl; W. Hanna; M. Harman; W. Hasubick; T. Haymes; D. Herald; D. Higgins; R. Hirsch; J. Horbowicz; A. Horti - David; B. Ignacz; E. Jehin; A. Jones; R. Jones; D. Dunham; Cs. Kalup; K. Kaminski; M. K. Kaminska; P. Kankiewicz; M. Kaplan; A. Karagiannidis; B. Kattentidt; S. Kidd; B. Kirpluk; D.-H. Kim; M.-J. Kim; I. Konstanciak; G. Krannich; M. Kretlow; J. Kubanek; V. Kudak; P. Kulczak; M. Lecossois; R. Leiva; M. Libert; J. Licandro; P. Lindner; R. Liu; Y. Liu; G. Lyzenga; M. Maestripieri; C. Malagon; P. Maley; A. Manna; S. Messner; O. Michniewicz; M. A. Miftah; M. Mizutani; N. Morales; M. Murawiecka; J. Nadolny; T. Nemoto; J. Newman; V. Nikitin; P. Nosal; P. Nosworthy; M. O'Connell; J. Oey; A. M. Ortiz-Ochoa; A. Ossola; D. Oszkiewicz; E. Pakstiene; M. Pawlowski; V. Perig; E. Petrescu; F. Pilcher; E. Podlewska-Gaca; M. Polacek; J. Polak; T. Polakis; M. Polinska; A. Popowicz; V. Reddy; J.-J. Rives; M. Rottenborn; N. Ruocco; A. Rutkowski; K. Saci; T. Santana-Ros; K. Sarneczky; O. Schreurs; V. Sempronio; B. Skiff; J. Skrzypek; D. Smith; K. Sobkowiak; E. Sonbas; S. Sposetti; C. Stewart; W. Stewart; T. Swift; M. Szkudlarek; K. Szyszka; N. Takacs; L. Tychoniec; M. Uno; S. Urakawa; K. Vida; C. Weber; N. W\"unsche; H. Yamamura; H. Yoshihara; M. Zawilski; P. Zeleny; S. Zola; M. Zejmo; K. Zukowski

arXiv:2505.09437·astro-ph.EP·May 16, 2025

Asteroid sizes determined with thermophysical model and stellar occultations

A. Choukroun, A. Marciniak, J. \v{D}urech, J. Per{\l}a, W. Og{\l}oza, R. Szakats, L. Molnar, A. Pal, F. Monteiro, I. Mieczkowska, W. Beisker, D. Agnetti, C. Anderson, S. Andersson, D. Antuszewicz, P. Arcoverde, R.-L. Aubry, P. Bacci, R. Bacci, P. Baruffetti, L. Benedyktowicz

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TL;DR

This study combines thermophysical modeling and stellar occultations to accurately determine asteroid sizes and shapes, improving upon previous methods and reducing uncertainties in asteroid property estimations.

Contribution

It introduces a combined approach using lightcurve inversion, thermophysical modeling, and occultation data to produce reliable asteroid size and shape models, especially for poorly studied targets.

Findings

01

Sizes agree within 5% between methods in most cases

02

Precise shape models were obtained for 15 asteroids

03

The approach resolves previous size estimate inconsistencies

Abstract

Context. The sizes of many asteroids, especially slowly rotating, low-amplitude targets, remain poorly constrained due to selection effects. These biases limit the availability of high-quality data, leaving size estimates reliant on spherical shape assumptions. Such approximations introduce significant uncertainties propagating, e.g. into density determinations or thermophysical and compositional studies, affecting our understanding of asteroid properties. Aims. This work targets poorly studied main-belt asteroids, most of which lacked shape models. Using only high-quality dense light curves, thermal IR observations (incl. WISE), and stellar occultations, we aimed to produce reliable shape models and scale them via two independent techniques, allowing size comparison. We conducted two campaigns to obtain dense photometric light curves and to acquire multi-chord stellar occultations.…

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