1847 WISE-observed asteroids thermal properties Virtual Observatory Resource

Authors
  1. Hung D.
  2. Hanus J.
  3. Masiero J.R.
  4. Tholen D.J.
  5. Published by
    CDS
Abstract

We present new thermophysical model (TPM) fits of 1847 asteroids, deriving thermal inertia, diameter, and Bond and visible geometric albedo. We use thermal flux measurements obtained by the Wide-field Infrared Survey Explorer (WISE) during its fully cryogenic phase, when both the 12um (W3) and 22um (W4) bands were available. We take shape models and spin information from the Database of Asteroid Models from Inversion Techniques (DAMIT) and derive new shape models through lightcurve inversion and combining WISE photometry with existing DAMIT lightcurves. When we limit our sample to the asteroids with the most reliable shape models and thermal flux measurements, we find broadly consistent thermal inertia relations with recent studies. We apply fits to the diameters D (km) and thermal inertia {GAMMA} (J/m^2^/s^0.5^/K) normalized to 1 au with a linear relation of the form log[{GAMMA}]={alpha}+{beta}log[D], where we find {alpha}=2.667+/-0.059 and {beta}=-0.467+/-0.044 for our sample alone and {alpha}=2.509+/-0.017 and {beta}=-0.352+/-0.012 when combined with other literature estimates. We find little evidence of any correlation between rotation period and thermal inertia, owing to the small number of slow rotators to consider in our sample. While the large uncertainties on the majority of our derived thermal inertia only allow us to identify broad trends between thermal inertia and other physical parameters, we can expect a significant increase in high-quality thermal flux measurements and asteroid shape models with upcoming infrared and wide-field surveys, enabling even more thermophysical modeling of higher precision in the future.

Keywords
  1. solar-system
  2. asteroids
  3. infrared-sources
Bibliographic source Bibcode
2022PSJ.....3...56H
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History

2022-03-16T07:49:21Z
Resource record created
2022-03-16T07:49:21Z
Created
2023-05-03T07:30:38Z
Updated

Contact

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CDS support team
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