Properties of slowly rotating asteroids from the Convex Inversion   Thermophysical Model

A. Marciniak; J. \v{D}urech; V. Al\'i-Lagoa; W. Og{\l}oza; R.; Szak\'ats; T. G. M\"uller; L. Moln\'ar; A. P\'al; F. Monteiro; P. Arcoverde,; R. Behrend; Z. Benkhaldoun; L. Bernasconi; J. Bosch; S. Brincat; L. Brunetto,; M. Butkiewicz - B\k{a}k; F. Del Freo; R. Duffard; M. Evangelista-Santana; G.; Farroni; S. Fauvaud; M. Fauvaud; M. Ferrais; S. Geier; J. Golonka; J. Grice,; R. Hirsch; J. Horbowicz; E. Jehin; P. Julien; Cs. Kalup; K. Kami\'nski; M. K.; Kami\'nska; P. Kankiewicz; V. Kecskem\'ethy; D.-H. Kim; M.-J. Kim; I.; Konstanciak; J. Krajewski; V. Kudak; P. Kulczak; T. Kundera; D. Lazzaro; F.; Manzini; H. Medeiros; J. Michimani-Garcia; N. Morales; J. Nadolny; D.; Oszkiewicz; E. Pak\v{s}tien\.e; M. Paw{\l}owski; V. Perig; F. Pilcher; P.; Pinel; E. Podlewska-Gaca; T. Polakis; F. Richard; T. Rodrigues; E. Rondon; R.; Roy; J. J. Sanabria; T. Santana-Ros; B. Skiff; J. Skrzypek; K. Sobkowiak; E.; Sonbas; G. Stachowski; J. Strajnic; P. Trela; \L. Tychoniec; S. Urakawa; E.; Verebelyi; K. Wagrez; M. \.Zejmo; K. \.Zukowski

arXiv:2109.00463·astro-ph.EP·October 20, 2021

Properties of slowly rotating asteroids from the Convex Inversion Thermophysical Model

A. Marciniak, J. \v{D}urech, V. Al\'i-Lagoa, W. Og{\l}oza, R., Szak\'ats, T. G. M\"uller, L. Moln\'ar, A. P\'al, F. Monteiro, P. Arcoverde,, R. Behrend, Z. Benkhaldoun, L. Bernasconi, J. Bosch, S. Brincat, L. Brunetto,, M. Butkiewicz - B\k{a}k, F. Del Freo, R. Duffard

PDF

TL;DR

This study models 16 slow-rotating asteroids using combined optical and thermal data with a novel convex inversion thermophysical model, revealing diverse thermal properties and expanding the sample of well-characterized slow rotators.

Contribution

It introduces and validates a combined convex inversion thermophysical modeling approach for slow rotators, increasing the sample with reliable size, shape, and thermal data.

Findings

01

Average size accuracy of 5%

02

Thermal inertia ranges from 2 to <400 SI units

03

No correlation between thermal inertia and rotation period

Abstract

Results from the TESS mission showed that previous studies strngly underestimated the number of slow rotators, revealing the importance of studying those asteroids. For most slowly rotating asteroids (P > 12), no spin and shape model is available because of observation selection effects. This hampers determination of their thermal parameters and accurate sizes. We continue our campaign in minimising selection effects among main belt asteroids. Our targets are slow rotators with low light-curve amplitudes. The goal is to provide their scaled spin and shape models together with thermal inertia, albedo, and surface roughness to complete the statistics. Rich multi-apparition datasets of dense light curves are supplemented with data from Kepler and TESS. In addition to data in the visible range, we also use thermal data from infrared space observatories (IRAS, Akari and WISE) in a combined…

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.